Cataclysm BN
map Class Reference

Manage and cache data about a part of the map. More...

#include <map.h>

Inheritance diagram for map:
tinymap fake_map

Classes

struct  apparent_light_info
 

Public Member Functions

 map (int mapsize=MAPSIZE, bool zlev=false)
 
 map (bool zlev)
 
virtual ~map ()
 
mapoperator= (const map &)=delete
 
mapoperator= (map &&)
 
void set_transparency_cache_dirty (const int zlev)
 Sets a dirty flag on the a given cache. More...
 
void set_transparency_cache_dirty (const tripoint &p)
 
void set_seen_cache_dirty (const tripoint change_location)
 
void set_seen_cache_dirty (const int zlevel)
 
void set_outside_cache_dirty (const int zlev)
 
void set_floor_cache_dirty (const int zlev)
 
void set_suspension_cache_dirty (const int zlev)
 
void set_pathfinding_cache_dirty (int zlev)
 
void set_memory_seen_cache_dirty (const tripoint &p)
 
void invalidate_map_cache (const int zlev)
 
bool check_seen_cache (const tripoint &p) const
 
bool check_and_set_seen_cache (const tripoint &p) const
 
void on_vehicle_moved (int smz)
 Callback invoked when a vehicle has moved. More...
 
lit_level apparent_light_at (const tripoint &p, const visibility_variables &cache) const
 Determine the visible light level for a tile, based on light_at for the tile, vision distance, etc. More...
 
visibility_type get_visibility (lit_level ll, const visibility_variables &cache) const
 
std::tuple< maptile, maptile, maptileget_wind_blockers (const int &winddirection, const tripoint &pos)
 
void draw (const catacurses::window &w, const tripoint &center)
 Draw a visible part of the map into w. More...
 
void drawsq (const catacurses::window &w, const tripoint &p, const drawsq_params &params) const
 Draw the map tile at the given coordinate. More...
 
void save ()
 Add currently loaded submaps (in grid) to the mapbuffer. More...
 
void load (const tripoint &w, bool update_vehicles)
 Load submaps into grid. More...
 
void load (const tripoint_abs_sm &w, bool update_vehicles)
 
void shift (const point &s)
 Shift the map along the vector s. More...
 
void vertical_shift (int newz)
 Moves the map vertically to (not by!) newz. More...
 
void clear_spawns ()
 
void clear_traps ()
 
maptile maptile_at (const tripoint &p) const
 
maptile maptile_at (const tripoint &p)
 
int move_cost (const tripoint &p, const vehicle *ignored_vehicle=nullptr) const
 Calculate the cost to move past the tile at p. More...
 
int move_cost (const point &p, const vehicle *ignored_vehicle=nullptr) const
 
bool impassable (const tripoint &p) const
 
bool impassable (const point &p) const
 
bool passable (const tripoint &p) const
 
bool passable (const point &p) const
 
bool is_wall_adjacent (const tripoint &center) const
 
int move_cost_ter_furn (const tripoint &p) const
 Similar behavior to move_cost(), but ignores vehicles. More...
 
int move_cost_ter_furn (const point &p) const
 
bool impassable_ter_furn (const tripoint &p) const
 
bool passable_ter_furn (const tripoint &p) const
 
int combined_movecost (const tripoint &from, const tripoint &to, const vehicle *ignored_vehicle=nullptr, int modifier=0, bool flying=false, bool via_ramp=false) const
 Cost to move out of one tile and into the next. More...
 
bool valid_move (const tripoint &from, const tripoint &to, bool bash=false, bool flying=false, bool via_ramp=false) const
 Returns true if a creature could walk from from to to in one step. More...
 
double ranged_target_size (const tripoint &p) const
 Size of map objects at p for purposes of ranged combat. More...
 
bool sees (const tripoint &F, const tripoint &T, int range) const
 Returns whether F sees T with a view range of range. More...
 
int obstacle_coverage (const tripoint &loc1, const tripoint &loc2) const
 Returns coverage of target in relation to the observer. More...
 
int coverage (const tripoint &p) const
 Returns coverage value of the tile. More...
 
bool clear_path (const tripoint &f, const tripoint &t, int range, int cost_min, int cost_max) const
 Check whether there's a direct line of sight between F and T with the additional movecost restraints. More...
 
bool obstructed_by_vehicle_rotation (const tripoint &from, const tripoint &to) const
 Checks if a rotated vehicle is blocking diagonal movement, tripoints must be adjacent. More...
 
bool obscured_by_vehicle_rotation (const tripoint &from, const tripoint &to) const
 Checks if a rotated vehicle is blocking diagonal vision, tripoints must be adjacent. More...
 
void reachable_flood_steps (std::vector< tripoint > &reachable_pts, const tripoint &f, int range, int cost_min, int cost_max) const
 Populates a vector of points that are reachable within a number of steps from a point. More...
 
std::vector< tripointfind_clear_path (const tripoint &source, const tripoint &destination) const
 Iteratively tries Bresenham lines with different biases until it finds a clear line or decides there isn't one. More...
 
bool accessible_items (const tripoint &t) const
 Check whether the player can access the items located . More...
 
std::vector< tripointget_dir_circle (const tripoint &f, const tripoint &t) const
 Calculate next search points surrounding the current position. More...
 
std::vector< tripointroute (const tripoint &f, const tripoint &t, const pathfinding_settings &settings, const std::set< tripoint > &pre_closed={{ }}) const
 Calculate the best path using A*. More...
 
VehicleList get_vehicles ()
 
void add_vehicle_to_cache (vehicle *)
 
void clear_vehicle_point_from_cache (vehicle *veh, const tripoint &pt)
 
void update_vehicle_cache (vehicle *, int old_zlevel)
 
void reset_vehicle_cache ()
 
void clear_vehicle_cache ()
 
void clear_vehicle_list (int zlev)
 
void update_vehicle_list (const submap *to, int zlev)
 
bool check_vehicle_zones (int zlev)
 
std::vector< zone_data * > get_vehicle_zones (int zlev)
 
void register_vehicle_zone (vehicle *, int zlev)
 
bool deregister_vehicle_zone (zone_data &zone)
 
std::unique_ptr< vehicledetach_vehicle (vehicle *veh)
 
void destroy_vehicle (vehicle *veh)
 
void vehmove ()
 
bool vehproceed (VehicleList &vehicle_list)
 
VehicleList get_vehicles (const tripoint &start, const tripoint &end)
 
optional_vpart_position veh_at (const tripoint &p) const
 Checks if tile is occupied by vehicle and by which part. More...
 
vehicleveh_at_internal (const tripoint &p, int &part_num)
 
const vehicleveh_at_internal (const tripoint &p, int &part_num) const
 
void board_vehicle (const tripoint &p, player *pl)
 
void unboard_vehicle (const vpart_reference &, Character *passenger, bool dead_passenger=false)
 
void unboard_vehicle (const tripoint &p, bool dead_passenger=false)
 
bool displace_vehicle (vehicle &veh, const tripoint &dp)
 
void shift_vehicle_z (vehicle &veh, int z_shift)
 
bool displace_water (const tripoint &dp)
 
float vehicle_wheel_traction (const vehicle &veh, bool ignore_movement_modifiers=false) const
 
float vehicle_vehicle_collision (vehicle &veh, vehicle &veh2, const std::vector< veh_collision > &collisions)
 
units::angle shake_vehicle (vehicle &veh, int velocity_before, units::angle direction)
 
vehiclemove_vehicle (vehicle &veh, const tripoint &dp, const tileray &facing)
 
void set (const tripoint &p, const ter_id &new_terrain, const furn_id &new_furniture)
 
void set (const point &p, const ter_id &new_terrain, const furn_id &new_furniture)
 
std::string name (const tripoint &p)
 
std::string name (const point &p)
 
std::string disp_name (const tripoint &p)
 
std::string obstacle_name (const tripoint &p)
 Returns the name of the obstacle at p that might be blocking movement/projectiles/etc. More...
 
bool has_furn (const tripoint &p) const
 
bool has_furn (const point &p) const
 
furn_id furn (const tripoint &p) const
 
furn_id furn (const point &p) const
 
void furn_set (const tripoint &p, const furn_id &new_furniture, cata::poly_serialized< active_tile_data > new_active=nullptr)
 Sets the furniture at given position. More...
 
void furn_set (const point &p, const furn_id &new_furniture)
 
std::string furnname (const tripoint &p)
 
std::string furnname (const point &p)
 
bool can_move_furniture (const tripoint &pos, player *p=nullptr)
 
ter_id ter (const tripoint &p) const
 
ter_id ter (const point &p) const
 
uint8_t get_known_connections (const tripoint &p, int connect_group, const std::map< tripoint, ter_id > &override={}) const
 
const harvest_idget_harvest (const tripoint &p) const
 Returns the full harvest list, for spawning. More...
 
const std::set< std::string > & get_harvest_names (const tripoint &p) const
 Returns names of the items that would be dropped. More...
 
ter_id get_ter_transforms_into (const tripoint &p) const
 
furn_id get_furn_transforms_into (const tripoint &p) const
 
bool ter_set (const tripoint &p, const ter_id &new_terrain)
 
bool ter_set (const point &p, const ter_id &new_terrain)
 
std::string tername (const tripoint &p) const
 
std::string tername (const point &p) const
 
bool has_nearby_fire (const tripoint &p, int radius=1)
 
bool has_nearby_table (const tripoint &p, int radius=1)
 Check whether a table/workbench/vehicle kitchen or other flat surface is nearby that could be used for crafting or eating. More...
 
bool has_nearby_chair (const tripoint &p, int radius=1)
 Check whether a chair or vehicle seat is nearby. More...
 
bool sees_some_items (const tripoint &p, const Creature &who) const
 Check if creature can see some items at p. More...
 
bool sees_some_items (const tripoint &p, const tripoint &from) const
 
bool could_see_items (const tripoint &p, const Creature &who) const
 Check if the creature could see items at p if there were any items. More...
 
bool could_see_items (const tripoint &p, const tripoint &from) const
 
bool has_items (const tripoint &p) const
 Checks for existence of items. More...
 
void examine (Character &p, const tripoint &pos)
 Calls the examine function of furniture or terrain at given tile, for given character. More...
 
bool is_harvestable (const tripoint &pos) const
 Returns true if point at pos is harvestable right now, with no extra tools. More...
 
std::string features (const tripoint &p)
 
std::string features (const point &p)
 
bool has_flag (const std::string &flag, const tripoint &p) const
 
bool has_flag (const std::string &flag, const point &p) const
 
bool can_put_items (const tripoint &p) const
 
bool can_put_items (const point &p) const
 
bool can_put_items_ter_furn (const tripoint &p) const
 
bool can_put_items_ter_furn (const point &p) const
 
bool has_flag_ter (const std::string &flag, const tripoint &p) const
 
bool has_flag_ter (const std::string &flag, const point &p) const
 
bool has_flag_furn (const std::string &flag, const tripoint &p) const
 
bool has_flag_furn (const std::string &flag, const point &p) const
 
bool has_flag_ter_or_furn (const std::string &flag, const tripoint &p) const
 
bool has_flag_ter_or_furn (const std::string &flag, const point &p) const
 
bool has_flag (ter_bitflags flag, const tripoint &p) const
 
bool has_flag (ter_bitflags flag, const point &p) const
 
bool has_flag_ter (ter_bitflags flag, const tripoint &p) const
 
bool has_flag_ter (ter_bitflags flag, const point &p) const
 
bool has_flag_furn (ter_bitflags flag, const tripoint &p) const
 
bool has_flag_furn (ter_bitflags flag, const point &p) const
 
bool has_flag_ter_or_furn (ter_bitflags flag, const tripoint &p) const
 
bool has_flag_ter_or_furn (ter_bitflags flag, const point &p) const
 
bool is_bashable (const tripoint &p, bool allow_floor=false) const
 Returns true if there is a bashable vehicle part or the furn/terrain is bashable at p. More...
 
bool is_bashable (const point &p) const
 
bool is_bashable_ter (const tripoint &p, bool allow_floor=false) const
 Returns true if the terrain at p is bashable. More...
 
bool is_bashable_ter (const point &p) const
 
bool is_bashable_furn (const tripoint &p) const
 Returns true if the furniture at p is bashable. More...
 
bool is_bashable_furn (const point &p) const
 
bool is_bashable_ter_furn (const tripoint &p, bool allow_floor=false) const
 Returns true if the furniture or terrain at p is bashable. More...
 
bool is_bashable_ter_furn (const point &p) const
 
int bash_strength (const tripoint &p, bool allow_floor=false) const
 Returns max_str of the furniture or terrain at p. More...
 
int bash_strength (const point &p) const
 
int bash_resistance (const tripoint &p, bool allow_floor=false) const
 Returns min_str of the furniture or terrain at p. More...
 
int bash_resistance (const point &p) const
 
int bash_rating (int str, const tripoint &p, bool allow_floor=false) const
 Returns a success rating from -1 to 10 for a given tile based on a set strength, used for AI movement planning Values roughly correspond to 10% increment chances of success on a given bash, rounded down. More...
 
int bash_rating (const int str, const point &p) const
 
void make_rubble (const tripoint &p, const furn_id &rubble_type, bool items, const ter_id &floor_type, bool overwrite=false)
 Generates rubble at the given location, if overwrite is true it just writes on top of what currently exists floor_type is only used if there is a non-bashable wall at the location or with overwrite = true. More...
 
void make_rubble (const tripoint &p, const furn_id &rubble_type, bool items)
 
void make_rubble (const tripoint &p)
 
bool is_outside (const tripoint &p) const
 
bool is_outside (const point &p) const
 
bool is_divable (const tripoint &p) const
 Returns whether or not the terrain at the given location can be dived into (by monsters that can swim or are aquatic or non-breathing). More...
 
bool is_divable (const point &p) const
 
bool is_water_shallow_current (const tripoint &p) const
 
bool is_water_shallow_current (const point &p) const
 
bool is_last_ter_wall (bool no_furn, const point &p, const point &max, direction dir) const
 Check if the last terrain is wall in direction NORTH, SOUTH, WEST or EAST. More...
 
bool tinder_at (const tripoint &p)
 Checks if there are any tinder flagged items on the tile. More...
 
bool flammable_items_at (const tripoint &p, int threshold=0)
 Checks if there are any flammable items on the tile. More...
 
bool is_flammable (const tripoint &p)
 Returns true if there is a flammable item or field or the furn/terrain is flammable at p. More...
 
point random_outdoor_tile ()
 
void draw_line_ter (const ter_id &type, const point &p1, const point &p2)
 
void draw_line_furn (const furn_id &type, const point &p1, const point &p2)
 
void draw_fill_background (const ter_id &type)
 
void draw_fill_background (ter_id(*f)())
 
void draw_fill_background (const weighted_int_list< ter_id > &f)
 
void draw_square_ter (const ter_id &type, const point &p1, const point &p2)
 
void draw_square_furn (const furn_id &type, const point &p1, const point &p2)
 
void draw_square_ter (ter_id(*f)(), const point &p1, const point &p2)
 
void draw_square_ter (const weighted_int_list< ter_id > &f, const point &p1, const point &p2)
 
void draw_rough_circle_ter (const ter_id &type, const point &p, int rad)
 
void draw_rough_circle_furn (const furn_id &type, const point &p, int rad)
 
void draw_circle_ter (const ter_id &type, const rl_vec2d &p, double rad)
 
void draw_circle_ter (const ter_id &type, const point &p, int rad)
 
void draw_circle_furn (const furn_id &type, const point &p, int rad)
 
void add_corpse (const tripoint &p)
 
void translate (const ter_id &from, const ter_id &to)
 
void translate_radius (const ter_id &from, const ter_id &to, float radi, const tripoint &p, bool same_submap=false, bool toggle_between=false)
 
bool close_door (const tripoint &p, bool inside, bool check_only)
 
bool open_door (const tripoint &p, bool inside, bool check_only=false)
 
void batter (const tripoint &p, int power, int tries=1, bool silent=false)
 bash a square for a set number of times at set power. More...
 
void destroy (const tripoint &p, bool silent=false)
 Keeps bashing a square until it can't be bashed anymore. More...
 
void destroy_furn (const tripoint &p, bool silent=false)
 Keeps bashing a square until there is no more furniture. More...
 
void crush (const tripoint &p)
 
void shoot (const tripoint &p, projectile &proj, bool hit_items)
 
int collapse_check (const tripoint &p)
 Checks if a square should collapse, returns the X for the one_in(X) collapse chance. More...
 
void collapse_at (const tripoint &p, bool silent, bool was_supporting=false, bool destroy_pos=true)
 Causes a collapse at p, such as from destroying a wall. More...
 
void propagate_suspension_check (const tripoint &point)
 Checks surrounding tiles for suspension, and has them check for collapse. More...
 
void collapse_invalid_suspension (const tripoint &point)
 Triggers a recursive collapse of suspended tiles based on their support validity. More...
 
bool is_suspension_valid (const tripoint &point)
 Checks the four orientations in which a suspended tile could be valid, and returns if the tile is valid. More...
 
void smash_items (const tripoint &p, int power, const std::string &cause_message, bool do_destroy)
 Tries to smash the items at the given tripoint. More...
 
bash_results bash (const tripoint &p, int str, bool silent=false, bool destroy=false, bool bash_floor=false, const vehicle *bashing_vehicle=nullptr)
 Returns a pair where first is whether anything was smashed and second is if it was destroyed. More...
 
bash_results bash_vehicle (const tripoint &p, const bash_params &params)
 
bash_results bash_ter_furn (const tripoint &p, const bash_params &params)
 
bool hit_with_acid (const tripoint &p)
 
bool hit_with_fire (const tripoint &p)
 
bool has_adjacent_furniture_with (const tripoint &p, const std::function< bool(const furn_t &)> &filter)
 Returns true if there is furniture for which filter returns true in a 1 tile radius of p. More...
 
bool mop_spills (const tripoint &p)
 Remove moppable fields/items at this location. More...
 
void decay_fields_and_scent (const time_duration &amount)
 Moved here from weather.cpp for speed. More...
 
std::string get_signage (const tripoint &p) const
 
void set_signage (const tripoint &p, const std::string &message) const
 
void delete_signage (const tripoint &p) const
 
int get_radiation (const tripoint &p) const
 
void set_radiation (const tripoint &p, int value)
 
void set_radiation (const point &p, const int value)
 
void adjust_radiation (const tripoint &p, int delta)
 Increment the radiation in the given tile by the given delta (decrement it if delta is negative) More...
 
void adjust_radiation (const point &p, const int delta)
 
int get_temperature (const tripoint &p) const
 
void set_temperature (const tripoint &p, int temperature)
 
void set_temperature (const point &p, int new_temperature)
 
std::vector< tripointcheck_submap_active_item_consistency ()
 
map_stack i_at (const tripoint &p)
 
map_stack i_at (const point &p)
 
item water_from (const tripoint &p)
 
void i_clear (const tripoint &p)
 
void i_clear (const point &p)
 
map_stack::iterator i_rem (const tripoint &p, map_stack::const_iterator it)
 
map_stack::iterator i_rem (const point &location, map_stack::const_iterator it)
 
void i_rem (const tripoint &p, item *it)
 
void i_rem (const point &p, item *it)
 
void spawn_artifact (const tripoint &p)
 
void spawn_natural_artifact (const tripoint &p, artifact_natural_property prop)
 
void spawn_item (const tripoint &p, const itype_id &type_id, unsigned quantity=1, int charges=0, const time_point &birthday=calendar::start_of_cataclysm, int damlevel=0)
 
void spawn_item (const point &p, const itype_id &type_id, unsigned quantity=1, int charges=0, const time_point &birthday=calendar::start_of_cataclysm, int damlevel=0)
 
void spawn_item (const tripoint &p, const std::string &type_id, unsigned quantity=1, int charges=0, const time_point &birthday=calendar::start_of_cataclysm, int damlevel=0)
 
void spawn_item (const point &p, const std::string &type_id, unsigned quantity=1, int charges=0, const time_point &birthday=calendar::start_of_cataclysm, int damlevel=0)
 
units::volume max_volume (const tripoint &p)
 
units::volume free_volume (const tripoint &p)
 
units::volume stored_volume (const tripoint &p)
 
itemadd_item_or_charges (const tripoint &pos, item obj, bool overflow=true)
 Adds an item to map tile or stacks charges. More...
 
itemadd_item_or_charges (const point &p, item obj, bool overflow=true)
 
itemadd_item (const tripoint &p, item new_item)
 Place an item on the map, despite the parameter name, this is not necessarily a new item. More...
 
void add_item (const point &p, item new_item)
 
itemspawn_an_item (const tripoint &p, item new_item, int charges, int damlevel)
 
void spawn_an_item (const point &p, item new_item, int charges, int damlevel)
 
void make_active (item_location &loc)
 Update an item's active status, for example when adding hot or perishable liquid to a container. More...
 
void update_lum (item_location &loc, bool add)
 Update luminosity before and after item's transformation. More...
 

Static Public Member Functions

static apparent_light_info apparent_light_helper (const level_cache &map_cache, const tripoint &p)
 Helper function for light claculation; exposed here for map editor. More...
 

Private Member Functions

maptile maptile_at_internal (const tripoint &p) const
 
maptile maptile_at_internal (const tripoint &p)
 
std::pair< tripoint, maptilemaptile_has_bounds (const tripoint &p, bool bounds_checked)
 
std::array< std::pair< tripoint, maptile >, 8 > get_neighbors (const tripoint &p)
 
void spread_gas (field_entry &cur, const tripoint &p, int percent_spread, const time_duration &outdoor_age_speedup, scent_block &sblk)
 
void create_hot_air (const tripoint &p, int intensity)
 
bool gas_can_spread_to (field_entry &cur, const tripoint &src, const tripoint &dst)
 
void gas_spread_to (field_entry &cur, maptile &dst, const tripoint &p)
 
int burn_body_part (player &u, field_entry &cur, body_part bp, int scale)
 
bool sees (const tripoint &F, const tripoint &T, int range, int &bresenham_slope) const
 Don't expose the slope adjust outside map functions. More...
 

Friends

class editmap
 
class visitable< map_cursor >
 

Consume items on the map

The functions here consume accessible items / item charges on the map or in vehicles around the player (whose positions is given as origin).

They return a list of copies of the consumed items (with the actually consumed charges in it). The quantity / amount parameter will be reduced by the number of items/charges removed. If all required items could be removed from the map, the quantity/amount will be 0, otherwise it will contain a positive value and the remaining items must be gathered from somewhere else.

enum  iteration_state { ITER_CONTINUE = 0 , ITER_SKIP_SUBMAP , ITER_SKIP_ZLEVEL , ITER_FINISH }
 Enum used by functors in function_over to control execution. More...
 
std::set< tripointsupport_cache_dirty
 
std::vector< submap * > grid
 The list of currently loaded submaps. More...
 
std::vector< std::vector< tripoint > > traplocs
 This vector contains an entry for each trap type, it has therefor the same size as the traplist vector. More...
 
std::vector< tripointfield_furn_locs
 Vector of tripoints containing active field-emitting furniture. More...
 
std::array< std::unique_ptr< level_cache >, OVERMAP_LAYERScaches
 Holds caches for visibility, light, transparency and vehicles. More...
 
std::array< std::unique_ptr< pathfinding_cache >, OVERMAP_LAYERSpathfinding_caches
 
std::set< tripointsubmaps_with_active_items
 Set of submaps that contain active items in absolute coordinates. More...
 
lru_cache< point, char > skew_vision_cache
 Cache of coordinate pairs recently checked for visibility. More...
 
VehicleList last_full_vehicle_list
 Vehicle list doesn't change often, but is pretty expensive. More...
 
bool last_full_vehicle_list_dirty = true
 
visibility_variables visibility_variables_cache
 
cata::optional< std::pair< tripoint, int > > max_populated_zlev = cata::nullopt
 
std::set< vehicle * > dirty_vehicle_list
 
int my_MAPSIZE
 
bool zlevels
 
tripoint abs_sub
 Absolute coordinates of first submap (get_submap_at(0,0)) This is in submap coordinates (see overmapbuffer for explanation). More...
 
std::list< itemuse_amount_square (const tripoint &p, const itype_id &type, int &quantity, const std::function< bool(const item &)> &filter=return_true< item >)
 
std::list< itemuse_amount (const tripoint &origin, int range, const itype_id &type, int &quantity, const std::function< bool(const item &)> &filter=return_true< item >)
 
std::list< itemuse_charges (const tripoint &origin, int range, const itype_id &type, int &quantity, const std::function< bool(const item &)> &filter=return_true< item >, basecamp *bcp=nullptr)
 
std::vector< item * > place_items (const item_group_id &loc, int chance, const tripoint &p1, const tripoint &p2, bool ongrass, const time_point &turn, int magazine=0, int ammo=0)
 Place items from item group in the rectangle f - t. More...
 
std::vector< item * > place_items (const item_group_id &loc, int chance, const point &p1, const point &p2, bool ongrass, const time_point &turn, int magazine=0, int ammo=0)
 
std::vector< item * > put_items_from_loc (const item_group_id &loc, const tripoint &p, const time_point &turn=calendar::start_of_cataclysm)
 Place items from an item group at p. More...
 
std::vector< item * > spawn_items (const tripoint &p, const std::vector< item > &new_items)
 
void spawn_items (const point &p, const std::vector< item > &new_items)
 
void create_anomaly (const tripoint &p, artifact_natural_property prop, bool create_rubble=true)
 
void create_anomaly (const point &cp, artifact_natural_property prop, bool create_rubble=true)
 
void partial_con_set (const tripoint &p, const partial_con &con)
 
void partial_con_remove (const tripoint &p)
 
partial_conpartial_con_at (const tripoint &p)
 
void trap_set (const tripoint &p, const trap_id &type)
 
const traptr_at (const tripoint &p) const
 
bool can_see_trap_at (const tripoint &p, const Character &c) const
 See trap::can_see, which is called for the trap here. More...
 
void disarm_trap (const tripoint &p)
 
void remove_trap (const tripoint &p)
 
const std::vector< tripoint > & get_furn_field_locations () const
 
const std::vector< tripoint > & trap_locations (const trap_id &type) const
 
void create_burnproducts (const tripoint &p, const item &fuel, const units::mass &burned_mass)
 
void process_fields ()
 
void process_fields_in_submap (submap *current_submap, const tripoint &submap_pos)
 
void creature_in_field (Creature &critter)
 Apply field effects to the creature when it's on a square with fields. More...
 
void creature_on_trap (Creature &critter, bool may_avoid=true)
 Apply trap effects to the creature, similar to creature_in_field. More...
 
const fieldfield_at (const tripoint &p) const
 Get the fields that are here. More...
 
fieldfield_at (const tripoint &p)
 Gets fields that are here. More...
 
time_duration get_field_age (const tripoint &p, const field_type_id &type) const
 Get the age of a field entry (field_entry::age), if there is no field of that type, returns -1_turns. More...
 
int get_field_intensity (const tripoint &p, const field_type_id &type) const
 Get the intensity of a field entry (field_entry::intensity), if there is no field of that type, returns 0. More...
 
time_duration mod_field_age (const tripoint &p, const field_type_id &type, const time_duration &offset)
 Increment/decrement age of field entry at point. More...
 
int mod_field_intensity (const tripoint &p, const field_type_id &type, int offset)
 Increment/decrement intensity of field entry at point, creating if not present, removing if intensity becomes 0. More...
 
time_duration set_field_age (const tripoint &p, const field_type_id &type, const time_duration &age, bool isoffset=false)
 Set age of field entry at point. More...
 
int set_field_intensity (const tripoint &p, const field_type_id &type, int new_intensity, bool isoffset=false)
 Set intensity of field entry at point, creating if not present, removing if intensity becomes 0. More...
 
field_entryget_field (const tripoint &p, const field_type_id &type)
 Get field of specific type at point. More...
 
bool dangerous_field_at (const tripoint &p)
 
bool add_field (const tripoint &p, const field_type_id &type_id, int intensity=INT_MAX, const time_duration &age=0_turns, bool hit_player=true)
 Add field entry at point, or set intensity if present. More...
 
void remove_field (const tripoint &p, const field_type_id &field_to_remove)
 Remove field entry at xy, ignored if the field entry is not present. More...
 
void add_splatter (const field_type_id &type, const tripoint &where, int intensity=1)
 
void add_splatter_trail (const field_type_id &type, const tripoint &from, const tripoint &to)
 
void add_splash (const field_type_id &type, const tripoint &center, int radius, int intensity)
 
void propagate_field (const tripoint &center, const field_type_id &type, int amount, int max_intensity=0)
 
void emit_field (const tripoint &pos, const emit_id &src, float mul=1.0f)
 Runs one cycle of emission src which may result in propagation of fields. More...
 
void scent_blockers (std::array< std::array< char, MAPSIZE_X >, MAPSIZE_Y > &scent_transfer, const point &min, const point &max)
 Build the map of scent-resistant tiles. More...
 
computercomputer_at (const tripoint &p)
 
computeradd_computer (const tripoint &p, const std::string &name, int security)
 
void add_camp (const tripoint_abs_omt &omt_pos, const std::string &name)
 
void remove_submap_camp (const tripoint &)
 
basecamp hoist_submap_camp (const tripoint &p)
 
bool point_within_camp (const tripoint &point_check) const
 
bool has_graffiti_at (const tripoint &p) const
 
const std::string & graffiti_at (const tripoint &p) const
 
void set_graffiti (const tripoint &p, const std::string &contents)
 
void delete_graffiti (const tripoint &p)
 
int climb_difficulty (const tripoint &p) const
 Checks 3x3 block centered on p for terrain to climb. More...
 
bool has_floor (const tripoint &p) const
 
bool supports_above (const tripoint &p) const
 Does this tile support vehicles and furniture above it. More...
 
bool has_floor_or_support (const tripoint &p) const
 
void drop_everything (const tripoint &p)
 Handles map objects of given type (not creatures) falling down. More...
 
void drop_furniture (const tripoint &p)
 
void drop_items (const tripoint &p)
 
void drop_vehicle (const tripoint &p)
 
void drop_fields (const tripoint &p)
 
void process_falling ()
 Invoked drop_everything on cached dirty tiles. More...
 
bool is_cornerfloor (const tripoint &p) const
 
void generate (const tripoint &p, const time_point &when)
 
void place_spawns (const mongroup_id &group, int chance, const point &p1, const point &p2, float density, bool individual=false, bool friendly=false, const std::string &name="NONE", int mission_id=-1)
 
void place_gas_pump (const point &p, int charges, const std::string &fuel_type)
 
void place_gas_pump (const point &p, int charges)
 
void place_toilet (const point &p, int charges=6 *4)
 
void place_vending (const point &p, const item_group_id &type, bool reinforced=false)
 
character_id place_npc (const point &p, const string_id< npc_template > &type, bool force=false)
 
void apply_faction_ownership (const point &p1, const point &p2, const faction_id &id)
 
void add_spawn (const mtype_id &type, int count, const tripoint &p, bool friendly=false, int faction_id=-1, int mission_id=-1, const std::string &name="NONE") const
 
void do_vehicle_caching (int z)
 
void build_map_cache (int zlev, bool skip_lightmap=false)
 
void build_obstacle_cache (const tripoint &start, const tripoint &end, float(&obstacle_cache)[MAPSIZE_X][MAPSIZE_Y])
 
vehicleadd_vehicle (const vgroup_id &type, const tripoint &p, units::angle dir, int init_veh_fuel=-1, int init_veh_status=-1, bool merge_wrecks=true)
 
vehicleadd_vehicle (const vgroup_id &type, const point &p, units::angle dir, int init_veh_fuel=-1, int init_veh_status=-1, bool merge_wrecks=true)
 
vehicleadd_vehicle (const vproto_id &type, const tripoint &p, units::angle dir, int init_veh_fuel=-1, int init_veh_status=-1, bool merge_wrecks=true)
 
vehicleadd_vehicle (const vproto_id &type, const point &p, units::angle dir, int init_veh_fuel=-1, int init_veh_status=-1, bool merge_wrecks=true)
 
float light_transparency (const tripoint &p) const
 
lit_level light_at (const tripoint &p) const
 
float ambient_light_at (const tripoint &p) const
 
bool is_transparent (const tripoint &p) const
 Returns whether the tile at p is transparent(you can look past it). More...
 
bool pl_sees (const tripoint &t, int max_range) const
 Whether the player character (g->u) can see the given square (local map coordinates). More...
 
bool pl_line_of_sight (const tripoint &t, int max_range) const
 Uses the map cache to tell if the player could see the given square. More...
 
tripoint get_abs_sub () const
 return abs_sub More...
 
tripoint getabs (const tripoint &p) const
 Translates local (to this map) coordinates of a square to global absolute coordinates. More...
 
point getabs (const point &p) const
 
tripoint getlocal (const tripoint &p) const
 Inverse of getabs. More...
 
point getlocal (const point &p) const
 
virtual bool inbounds (const tripoint &p) const
 
bool inbounds (const point &p) const
 
bool inbounds_z (const int z) const
 
void clip_to_bounds (tripoint &p) const
 Clips the coordinates of p to fit the map bounds. More...
 
void clip_to_bounds (int &x, int &y) const
 
void clip_to_bounds (int &x, int &y, int &z) const
 
int getmapsize () const
 
bool has_zlevels () const
 
void rotate (int turns, bool setpos_safe=false)
 Rotates this map, and all of its contents, by the specified multiple of 90 degrees. More...
 
void spawn_monsters (bool ignore_sight)
 Spawn monsters from submap spawn points and from the overmap. More...
 
void rotten_item_spawn (const item &item, const tripoint &p)
 Checks to see if the item that is rotting away generates a creature when it does. More...
 
void build_outside_cache (int zlev)
 
bool build_floor_cache (int zlev)
 
void build_floor_caches ()
 
void update_suspension_cache (const int &z)
 
bash_results bash_items (const tripoint &p, const bash_params &params)
 
bash_results bash_field (const tripoint &p, const bash_params &params)
 
bash_results bash_ter_success (const tripoint &p, const bash_params &params)
 
bash_results bash_furn_success (const tripoint &p, const bash_params &params)
 
void process_items ()
 
const level_cacheget_cache_ref (int zlev) const
 
const pathfinding_cacheget_pathfinding_cache_ref (int zlev) const
 
void update_pathfinding_cache (int zlev) const
 
void update_visibility_cache (int zlev)
 
const visibility_variablesget_visibility_variables_cache () const
 
void update_submap_active_item_status (const tripoint &p)
 
const std::set< tripoint > & get_submaps_with_active_items () const
 
tripoint_range< tripointpoints_in_rectangle (const tripoint &from, const tripoint &to) const
 
tripoint_range< tripointpoints_in_radius (const tripoint &center, size_t radius, size_t radiusz=0) const
 
tripoint_range< tripointpoints_on_zlevel () const
 Yields a range of all points that are contained in the map and have the z-level of this map (abs_sub). More...
 
tripoint_range< tripointpoints_on_zlevel (int z) const
 Same as above, but uses the specific z-level. More...
 
std::list< item_locationget_active_items_in_radius (const tripoint &center, int radius) const
 
std::list< item_locationget_active_items_in_radius (const tripoint &center, int radius, special_item_type type) const
 
std::list< tripointfind_furnitures_with_flag_in_radius (const tripoint &center, size_t radius, const std::string &flag, size_t radiusz=0)
 returns positions of furnitures with matching flag in the specified radius More...
 
std::list< Creature * > get_creatures_in_radius (const tripoint &center, size_t radius, size_t radiusz=0)
 returns creatures in specified radius More...
 
level_cacheaccess_cache (int zlev)
 
const level_cacheaccess_cache (int zlev) const
 
bool dont_draw_lower_floor (const tripoint &p)
 
void support_dirty (const tripoint &p)
 
void spawn_monsters_submap (const tripoint &gp, bool ignore_sight)
 
void spawn_monsters_submap_group (const tripoint &gp, mongroup &group, bool ignore_sight)
 
fieldget_field (const tripoint &p)
 
submapgetsubmap (size_t grididx) const
 Get the submap pointer with given index in grid, the index must be valid! More...
 
submapget_submap_at (const tripoint &p) const
 Get the submap pointer containing the specified position within the reality bubble. More...
 
submapget_submap_at (const point &p) const
 
submapget_submap_at (const tripoint &p, point &offset_p) const
 Get the submap pointer containing the specified position within the reality bubble. More...
 
submapget_submap_at (const point &p, point &offset_p) const
 
submapget_submap_at_grid (const point &gridp) const
 Get submap pointer in the grid at given grid coordinates. More...
 
submapget_submap_at_grid (const tripoint &gridp) const
 
int calc_max_populated_zlev ()
 Caclulate the greatest populated zlevel in the loaded submaps and save in the level cache. More...
 
void invalidate_max_populated_zlev (int zlev)
 Conditionally invalidates max_pupulated_zlev cache if the submap uniformity change occurs above current max_pupulated_zlev value. More...
 
int move_cost_internal (const furn_t &furniture, const ter_t &terrain, const vehicle *veh, int vpart) const
 Internal versions of public functions to avoid checking same variables multiple times. More...
 
int bash_rating_internal (int str, const furn_t &furniture, const ter_t &terrain, bool allow_floor, const vehicle *veh, int part) const
 
bool draw_maptile (const catacurses::window &w, const tripoint &p, const maptile &tile, const drawsq_params &params) const
 Internal version of the drawsq. More...
 
void draw_from_above (const catacurses::window &w, const tripoint &p, const maptile &tile, const drawsq_params &params) const
 Draws the tile as seen from above. More...
 
int determine_wall_corner (const tripoint &p) const
 
void apply_light_source (const tripoint &p, float luminance)
 
void add_light_source (const tripoint &p, float luminance)
 
void apply_directional_light (const tripoint &p, int direction, float luminance)
 
void apply_light_arc (const tripoint &p, units::angle, float luminance, units::angle wideangle=30_degrees)
 
void apply_light_ray (bool lit[MAPSIZE_X][MAPSIZE_Y], const tripoint &s, const tripoint &e, float luminance)
 
void add_light_from_items (const tripoint &p, item_stack::iterator begin, item_stack::iterator end)
 
std::unique_ptr< vehicleadd_vehicle_to_map (std::unique_ptr< vehicle > veh, bool merge_wrecks)
 Takes a vehicle already created with new and attempts to place it on the map, checking for collisions. More...
 
ter_id get_roof (const tripoint &p, bool allow_air) const
 
void process_items_in_submap (submap &current_submap, const tripoint &gridp)
 
void process_items_in_vehicles (submap &current_submap)
 
void process_items_in_vehicle (vehicle &cur_veh, submap &current_submap)
 
template<typename Functor >
void function_over (const tripoint &start, const tripoint &end, Functor fun) const
 Runs a functor over given submaps over submaps in the area, getting next submap only when the current one "runs out" rather than every time. More...
 
level_cacheget_cache (int zlev) const
 
pathfinding_cacheget_pathfinding_cache (int zlev) const
 
void saven (const tripoint &grid)
 
bool loadn (const tripoint &grid, bool update_vehicles)
 
bool loadn (const point &grid, bool update_vehicles)
 
void actualize (const tripoint &grid)
 Fast forward a submap that has just been loading into this map. More...
 
void add_roofs (const tripoint &grid)
 Hacks in missing roofs. More...
 
template<typename Container >
void remove_rotten_items (Container &items, const tripoint &p)
 Go through the list of items, update their rotten status and remove items that have rotten away completely. More...
 
void fill_funnels (const tripoint &p, const time_point &since)
 Try to fill funnel based items here. More...
 
void grow_plant (const tripoint &p)
 Try to grow a harvestable plant to the next stage(s). More...
 
void restock_fruits (const tripoint &p, const time_duration &time_since_last_actualize)
 Try to grow fruits on static plants (not planted by the player) More...
 
void produce_sap (const tripoint &p, const time_duration &time_since_last_actualize)
 Produce sap on tapped maple trees. More...
 
void rad_scorch (const tripoint &p, const time_duration &time_since_last_actualize)
 Radiation-related plant (and fungus?) death. More...
 
void decay_cosmetic_fields (const tripoint &p, const time_duration &time_since_last_actualize)
 
void player_in_field (player &u)
 
void monster_in_field (monster &z)
 
void shift_traps (const tripoint &shift)
 As part of the map shifting, this shifts the trap locations stored in traplocs. More...
 
void copy_grid (const tripoint &to, const tripoint &from)
 
void draw_map (mapgendata &dat)
 
void draw_office_tower (mapgendata &dat)
 
void draw_lab (mapgendata &dat)
 
void draw_temple (mapgendata &dat)
 
void draw_mine (mapgendata &dat)
 
void draw_anthill (mapgendata &dat)
 
void draw_slimepit (mapgendata &dat)
 
void draw_triffid (mapgendata &dat)
 
void draw_connections (mapgendata &dat)
 
bool build_transparency_cache (int zlev)
 
bool build_vision_transparency_cache (int zlev)
 
void build_sunlight_cache (int pzlev)
 
void generate_lightmap (int zlev)
 
void build_seen_cache (const tripoint &origin, int target_z)
 Calculates the Field Of View for the provided map from the given x, y coordinates. More...
 
void apply_character_light (Character &p)
 
void set_abs_sub (const tripoint &p)
 Sets abs_sub, see there. More...
 
size_t get_nonant (const tripoint &gridp) const
 Get the index of a submap pointer in the grid given by grid coordinates. More...
 
size_t get_nonant (const point &gridp) const
 
void setsubmap (size_t grididx, submap *smap)
 Set the submap pointer in grid at the give index. More...
 

Detailed Description

Manage and cache data about a part of the map.

Despite the name, this class isn't actually responsible for managing the map as a whole. For that function, see mapbuffer. Instead, this class loads a part of the mapbuffer into a cache, and adds certain temporary information such as lighting calculations to it.

To understand the following descriptions better, you should also read Map Management

The map coordinates always start at (0, 0) for the top-left and end at (map_width-1, map_height-1) for the bottom-right.

The actual map data is stored in submap instances. These instances are managed by mapbuffer. References to the currently active submaps are stored in map::grid: 0 1 2 3 4 5 6 7 8 In this example, the top-right submap would be at grid[2].

When the player moves between submaps, the whole map is shifted, so that if the player moves one submap to the right, (0, 0) now points to a tile one submap to the right from before

Definition at line 388 of file map.h.

Member Enumeration Documentation

◆ iteration_state

enum map::iteration_state
private

Enum used by functors in function_over to control execution.

Enumerator
ITER_CONTINUE 
ITER_SKIP_SUBMAP 
ITER_SKIP_ZLEVEL 
ITER_FINISH 

Definition at line 1967 of file map.h.

1967 {
1968 ITER_CONTINUE = 0, // Keep iterating
1969 ITER_SKIP_SUBMAP, // Skip the rest of this submap
1970 ITER_SKIP_ZLEVEL, // Skip the rest of this z-level
1971 ITER_FINISH // End iteration
1972 };
@ ITER_SKIP_ZLEVEL
Definition: map.h:1970
@ ITER_SKIP_SUBMAP
Definition: map.h:1969
@ ITER_CONTINUE
Definition: map.h:1968
@ ITER_FINISH
Definition: map.h:1971

Constructor & Destructor Documentation

◆ map() [1/2]

map::map ( int  mapsize = MAPSIZE,
bool  zlev = false 
)

Definition at line 172 of file map.cpp.

173{
174 my_MAPSIZE = mapsize;
175 zlevels = zlev;
176 if( zlevels ) {
177 grid.resize( static_cast<size_t>( my_MAPSIZE * my_MAPSIZE * OVERMAP_LAYERS ), nullptr );
178 } else {
179 grid.resize( static_cast<size_t>( my_MAPSIZE * my_MAPSIZE ), nullptr );
180 }
181
182 for( auto &ptr : caches ) {
183 ptr = std::make_unique<level_cache>();
184 }
185
186 for( auto &ptr : pathfinding_caches ) {
187 ptr = std::make_unique<pathfinding_cache>();
188 }
189
190 dbg( DL::Info ) << "map::map(): my_MAPSIZE: " << my_MAPSIZE << " z-levels enabled:" << zlevels;
191 traplocs.resize( trap::count() );
192}
std::vector< std::vector< tripoint > > traplocs
This vector contains an entry for each trap type, it has therefor the same size as the traplist vecto...
Definition: map.h:1999
std::array< std::unique_ptr< pathfinding_cache >, OVERMAP_LAYERS > pathfinding_caches
Definition: map.h:2009
std::vector< submap * > grid
The list of currently loaded submaps.
Definition: map.h:1992
int my_MAPSIZE
Definition: map.h:1824
bool zlevels
Definition: map.h:1825
std::array< std::unique_ptr< level_cache >, OVERMAP_LAYERS > caches
Holds caches for visibility, light, transparency and vehicles.
Definition: map.h:2007
@ Info
Information (default: enabled).
const void * ptr(const T *p)
\rst Converts p to const void* for pointer formatting.
static constexpr int OVERMAP_LAYERS
#define dbg(x)
Definition: map.cpp:136
static size_t count()
Definition: trap.cpp:95

References caches, trap::count(), dbg, grid, Info, my_MAPSIZE, OVERMAP_LAYERS, pathfinding_caches, ptr(), traplocs, and zlevels.

Referenced by check_submap_active_item_consistency().

◆ map() [2/2]

map::map ( bool  zlev)
inlineexplicit

Definition at line 396 of file map.h.

396: map( MAPSIZE, zlev ) { }
map(int mapsize=MAPSIZE, bool zlev=false)
Definition: map.cpp:172
static constexpr int MAPSIZE

◆ ~map()

map::~map ( )
virtualdefault

Member Function Documentation

◆ access_cache() [1/2]

level_cache & map::access_cache ( int  zlev)

Definition at line 8693 of file map.cpp.

8694{
8695 if( zlev >= -OVERMAP_DEPTH && zlev <= OVERMAP_HEIGHT ) {
8696 return *caches[zlev + OVERMAP_DEPTH];
8697 }
8698
8699 debugmsg( "access_cache called with invalid z-level: %d", zlev );
8700 return nullcache;
8701}
#define debugmsg(...)
Debug message of level DL::Error and class DC::DebugMsg, also includes the source file name and line,...
Definition: debug.h:74
static constexpr int OVERMAP_HEIGHT
static constexpr int OVERMAP_DEPTH
static level_cache nullcache
Definition: map.cpp:140

References caches, debugmsg, nullcache, OVERMAP_DEPTH, and OVERMAP_HEIGHT.

Referenced by get_known_connections(), game::place_player_overmap(), process_items(), explosion_handler::shrapnel(), scent_map::update(), and game::vertical_shift().

◆ access_cache() [2/2]

const level_cache & map::access_cache ( int  zlev) const

Definition at line 8703 of file map.cpp.

8704{
8705 if( zlev >= -OVERMAP_DEPTH && zlev <= OVERMAP_HEIGHT ) {
8706 return *caches[zlev + OVERMAP_DEPTH];
8707 }
8708
8709 debugmsg( "access_cache called with invalid z-level: %d", zlev );
8710 return nullcache;
8711}

References caches, debugmsg, nullcache, OVERMAP_DEPTH, and OVERMAP_HEIGHT.

◆ accessible_items()

bool map::accessible_items ( const tripoint t) const

Check whether the player can access the items located .

Certain furniture/terrain may prevent that (e.g. a locked safe).

Definition at line 6547 of file map.cpp.

6548{
6549 return !has_flag( "SEALED", t ) || has_flag( "LIQUIDCONT", t );
6550}
bool has_flag(const std::string &flag, const tripoint &p) const
Definition: map.cpp:2290

References has_flag().

Referenced by basecamp::form_crafting_inventory(), inventory::form_from_map(), player::get_eligible_containers_for_crafting(), has_clear_path_to_pickup_items(), try_fuel_fire(), and use_charges().

◆ actualize()

void map::actualize ( const tripoint grid)
protected

Fast forward a submap that has just been loading into this map.

This is used to rot and remove rotten items, grow plants, fill funnels etc.

Definition at line 7394 of file map.cpp.

7395{
7396 submap *const tmpsub = get_submap_at_grid( grid );
7397 if( tmpsub == nullptr ) {
7398 debugmsg( "Actualize called on null submap (%d,%d,%d)", grid.x, grid.y, grid.z );
7399 return;
7400 }
7401
7402 const time_duration time_since_last_actualize = calendar::turn - tmpsub->last_touched;
7403 const bool do_funnels = ( grid.z >= 0 );
7404
7405 // check spoiled stuff, and fill up funnels while we're at it
7406 for( int x = 0; x < SEEX; x++ ) {
7407 for( int y = 0; y < SEEY; y++ ) {
7408 const tripoint pnt = sm_to_ms_copy( grid ) + point( x, y );
7409 const point p( x, y );
7410 const auto &furn = this->furn( pnt ).obj();
7411 if( furn.has_flag( "EMITTER" ) ) {
7412 field_furn_locs.push_back( pnt );
7413 }
7414 // plants contain a seed item which must not be removed under any circumstances
7415 if( !furn.has_flag( "DONT_REMOVE_ROTTEN" ) ) {
7416 remove_rotten_items( tmpsub->get_items( { x, y } ), pnt );
7417 }
7418
7419 const auto trap_here = tmpsub->get_trap( p );
7420 if( trap_here != tr_null ) {
7421 traplocs[trap_here.to_i()].push_back( pnt );
7422 }
7423 const ter_t &ter = tmpsub->get_ter( p ).obj();
7424 if( ter.trap != tr_null && ter.trap != tr_ledge ) {
7425 traplocs[ter.trap.to_i()].push_back( pnt );
7426 }
7427
7428 if( do_funnels ) {
7429 fill_funnels( pnt, tmpsub->last_touched );
7430 }
7431
7432 grow_plant( pnt );
7433
7434 restock_fruits( pnt, time_since_last_actualize );
7435
7436 produce_sap( pnt, time_since_last_actualize );
7437
7438 rad_scorch( pnt, time_since_last_actualize );
7439
7440 decay_cosmetic_fields( pnt, time_since_last_actualize );
7441 }
7442 }
7443
7444 // the last time we touched the submap, is right now.
7445 tmpsub->last_touched = calendar::turn;
7446}
const T & obj() const
Definition: ammo_effect.cpp:26
int to_i() const
Returns the identifier as plain int.
Definition: int_id.h:84
void remove_rotten_items(Container &items, const tripoint &p)
Go through the list of items, update their rotten status and remove items that have rotten away compl...
Definition: map.cpp:7077
void rad_scorch(const tripoint &p, const time_duration &time_since_last_actualize)
Radiation-related plant (and fungus?) death.
Definition: map.cpp:7328
void fill_funnels(const tripoint &p, const time_point &since)
Try to fill funnel based items here.
Definition: map.cpp:7116
std::vector< tripoint > field_furn_locs
Vector of tripoints containing active field-emitting furniture.
Definition: map.h:2003
void decay_cosmetic_fields(const tripoint &p, const time_duration &time_since_last_actualize)
Definition: map.cpp:7374
void restock_fruits(const tripoint &p, const time_duration &time_since_last_actualize)
Try to grow fruits on static plants (not planted by the player)
Definition: map.cpp:7217
ter_id ter(const tripoint &p) const
Definition: map.cpp:1495
void grow_plant(const tripoint &p)
Try to grow a harvestable plant to the next stage(s).
Definition: map.cpp:7139
submap * get_submap_at_grid(const point &gridp) const
Get submap pointer in the grid at given grid coordinates.
Definition: map.h:1870
void produce_sap(const tripoint &p, const time_duration &time_since_last_actualize)
Produce sap on tapped maple trees.
Definition: map.cpp:7231
furn_id furn(const tripoint &p) const
Definition: map.cpp:1345
Definition: submap.h:65
time_point last_touched
Definition: submap.h:240
trap_id get_trap(const point &p) const
Definition: submap.h:73
ter_id get_ter(const point &p) const
Definition: submap.h:99
cata::colony< item > & get_items(const point &p)
Definition: submap.h:161
A duration defined as a number of specific time units.
Definition: calendar.h:180
point sm_to_ms_copy(const point &p)
static constexpr int SEEX
static constexpr int SEEY
static const trap_str_id tr_ledge("tr_ledge")
time_point turn
Definition: calendar.cpp:36
Definition: point.h:35
Definition: mapdata.h:457
trap_id tr_null
Definition: trap.cpp:276

References debugmsg, decay_cosmetic_fields(), field_furn_locs, fill_funnels(), furn(), submap::get_items(), get_submap_at_grid(), submap::get_ter(), submap::get_trap(), grid, grow_plant(), submap::last_touched, int_id< T >::obj(), produce_sap(), rad_scorch(), remove_rotten_items(), restock_fruits(), SEEX, SEEY, sm_to_ms_copy(), ter(), int_id< T >::to_i(), tr_ledge, tr_null, traplocs, and calendar::turn.

Referenced by loadn().

◆ add_camp()

void map::add_camp ( const tripoint_abs_omt omt_pos,
const std::string &  name 
)

Definition at line 5571 of file map.cpp.

5572{
5573 basecamp temp_camp = basecamp( name, omt_pos );
5574 overmap_buffer.add_camp( temp_camp );
5575 g->u.camps.insert( omt_pos );
5576 g->validate_camps();
5577}
std::string name(const tripoint &p)
Definition: map.cpp:1322
void add_camp(const basecamp &camp)
Add Basecamp to overmapbuffer.
std::unique_ptr< game > g
Definition: game.cpp:272
overmapbuffer overmap_buffer

References overmapbuffer::add_camp(), g, name(), and overmap_buffer.

Referenced by get_basecamp().

◆ add_computer()

computer * map::add_computer ( const tripoint p,
const std::string &  name,
int  security 
)

Definition at line 5783 of file mapgen.cpp.

5784{
5785 // TODO: Turn this off?
5786 ter_set( p, t_console );
5787 point l;
5788 submap *const place_on_submap = get_submap_at( p, l );
5789 place_on_submap->set_computer( l, computer( name, security ) );
5790 return place_on_submap->get_computer( l );
5791}
bool ter_set(const tripoint &p, const ter_id &new_terrain)
Definition: map.cpp:1636
submap * get_submap_at(const tripoint &p) const
Get the submap pointer containing the specified position within the reality bubble.
Definition: map.cpp:8290
void set_computer(const point &p, const computer &c)
Definition: submap.cpp:203
const computer * get_computer(const point &p) const
Definition: submap.cpp:177
ter_id t_console
Definition: mapdata.cpp:704

References submap::get_computer(), get_submap_at(), name(), submap::set_computer(), t_console, and ter_set().

Referenced by jmapgen_computer::apply(), create_lab_consoles(), draw_lab(), mission_start::place_npc_software(), and science_room().

◆ add_corpse()

void map::add_corpse ( const tripoint p)

Definition at line 8434 of file map.cpp.

8435{
8436 item body;
8437
8438 const bool isReviveSpecial = one_in( 10 );
8439
8440 if( !isReviveSpecial ) {
8441 body = item::make_corpse();
8442 } else {
8443 body = item::make_corpse( mon_zombie );
8444 body.set_flag( "REVIVE_SPECIAL" );
8445 }
8446
8447 put_items_from_loc( item_group_id( "default_zombie_clothes" ), p );
8448 if( one_in( 3 ) ) {
8449 put_items_from_loc( item_group_id( "default_zombie_items" ), p );
8450 }
8451
8452 add_item_or_charges( p, body );
8453}
Definition: item.h:176
static item make_corpse(const mtype_id &mt=string_id< mtype >::NULL_ID(), time_point turn=calendar::turn, const std::string &name="", int upgrade_time=-1)
Make a corpse of the given monster type.
Definition: item.cpp:507
item & set_flag(const std::string &flag)
Idempotent filter setting an item specific flag.
Definition: item.cpp:5242
item & add_item_or_charges(const tripoint &pos, item obj, bool overflow=true)
Adds an item to map tile or stacks charges.
Definition: map.cpp:4216
std::vector< item * > put_items_from_loc(const item_group_id &loc, const tripoint &p, const time_point &turn=calendar::start_of_cataclysm)
Place items from an item group at p.
Definition: mapgen.cpp:5571
static const mtype_id mon_zombie("mon_zombie")
bool one_in(int chance)
Definition: rng.cpp:65
string_id< Item_group > item_group_id
Definition: type_id.h:77

References add_item_or_charges(), item::make_corpse(), mon_zombie, one_in(), put_items_from_loc(), and item::set_flag().

Referenced by add_corpse(), MapExtras::mx_looters(), MapExtras::mx_mayhem(), and MapExtras::mx_minefield().

◆ add_field()

bool map::add_field ( const tripoint p,
const field_type_id type_id,
int  intensity = INT_MAX,
const time_duration age = 0_turns,
bool  hit_player = true 
)

Add field entry at point, or set intensity if present.

Returns
false if the field could not be created (out of bounds), otherwise true.

Definition at line 5388 of file map.cpp.

5390{
5391 if( !inbounds( p ) ) {
5392 return false;
5393 }
5394
5395 if( !type_id ) {
5396 debugmsg( "Tried to add null field" );
5397 return false;
5398 }
5399
5400 const field_type &fd_type = *type_id;
5401 intensity = std::min( intensity, fd_type.get_max_intensity() );
5402 if( intensity <= 0 ) {
5403 return false;
5404 }
5405
5406 point l;
5407 submap *const current_submap = get_submap_at( p, l );
5408 current_submap->is_uniform = false;
5410
5411 if( current_submap->get_field( l ).add_field( type_id, intensity, age ) ) {
5412 //Only adding it to the count if it doesn't exist.
5413 if( !current_submap->field_count++ ) {
5414 get_cache( p.z ).field_cache.set( static_cast<size_t>( p.x / SEEX + ( (
5415 p.y / SEEX ) * MAPSIZE ) ) );
5416 }
5417 }
5418
5419 if( hit_player ) {
5420 Character &player_character = get_player_character();
5421 if( g != nullptr && this == &get_map() && p == player_character.pos() ) {
5422 //Hit the player with the field if it spawned on top of them.
5423 creature_in_field( player_character );
5424 }
5425 }
5426
5427 // Dirty the transparency cache now that field processing doesn't always do it
5428 if( fd_type.dirty_transparency_cache || !fd_type.is_transparent() ) {
5431 }
5432
5433 if( fd_type.is_dangerous() ) {
5435 }
5436
5437 // Ensure blood type fields don't hang in the air
5438 if( zlevels && fd_type.accelerated_decay ) {
5439 support_dirty( p );
5440 }
5441
5442 return true;
5443}
Character & get_player_character()
Definition: character.cpp:387
const tripoint & pos() const override
Definition: character.cpp:714
bool add_field(const field_type_id &field_type_to_add, int new_intensity=1, const time_duration &new_age=0_turns)
Inserts the given field_type_id into the field list for a given tile if it does not already exist.
Definition: field.cpp:190
void set_transparency_cache_dirty(const int zlev)
Sets a dirty flag on the a given cache.
Definition: map.h:410
level_cache & get_cache(int zlev) const
Definition: map.h:2027
virtual bool inbounds(const tripoint &p) const
Definition: map.cpp:7744
void set_pathfinding_cache_dirty(int zlev)
Definition: map.cpp:8749
void creature_in_field(Creature &critter)
Apply field effects to the creature when it's on a square with fields.
Definition: map_field.cpp:1563
void support_dirty(const tripoint &p)
Definition: map.cpp:2264
void invalidate_max_populated_zlev(int zlev)
Conditionally invalidates max_pupulated_zlev cache if the submap uniformity change occurs above curre...
Definition: map.cpp:8942
void set_seen_cache_dirty(const tripoint change_location)
Definition: map.h:426
int field_count
Definition: submap.h:239
field & get_field(const point &p)
Definition: submap.h:170
bool is_uniform
Definition: submap.h:233
map & get_map()
Definition: map.cpp:144
bool accelerated_decay
Definition: field_type.h:179
bool is_transparent() const
Definition: field_type.h:262
bool dirty_transparency_cache
Definition: field_type.h:161
bool is_dangerous() const
Definition: field_type.h:256
int get_max_intensity() const
Definition: field_type.h:268
std::bitset< MAPSIZE *MAPSIZE > field_cache
Definition: map.h:357
int y
Definition: point.h:151
int z
Definition: point.h:152
int x
Definition: point.h:150

References field_type::accelerated_decay, field::add_field(), creature_in_field(), debugmsg, field_type::dirty_transparency_cache, level_cache::field_cache, submap::field_count, g, get_cache(), submap::get_field(), get_map(), field_type::get_max_intensity(), get_player_character(), get_submap_at(), inbounds(), invalidate_max_populated_zlev(), field_type::is_dangerous(), field_type::is_transparent(), submap::is_uniform, MAPSIZE, Character::pos(), SEEX, set_pathfinding_cache_dirty(), set_seen_cache_dirty(), set_transparency_cache_dirty(), support_dirty(), tripoint::x, tripoint::y, tripoint::z, and zlevels.

Referenced by Character::activate_bionic(), jmapgen_field::apply(), apply_ammo_effects(), Character::blossoms(), mattack::boomer(), mattack::boomer_glow(), start_location::burn(), create_anomaly(), spell::create_field(), create_hot_air(), explosion_handler::do_blast(), draw_lab(), draw_mine(), draw_temple(), draw_triffid(), drop_fields(), editmap::edit_fld(), iexamine::fireplace(), mattack::flame(), gas_spread_to(), hit_with_fire(), madd_field(), MapExtras::mx_casings(), MapExtras::mx_corpses(), MapExtras::mx_drugdeal(), MapExtras::mx_looters(), MapExtras::mx_mayhem(), MapExtras::mx_minefield(), MapExtras::mx_portal_in(), MapExtras::mx_roadblock(), MapExtras::mx_spider(), game::process_artifact(), process_fields_in_submap(), explosion_handler::explosion_funcs::resonance_cascade(), mattack::riotbot(), set_field_intensity(), shoot(), explosion_iuse::trigger_explosion(), and consume_drug_iuse::use().

◆ add_item() [1/2]

void map::add_item ( const point p,
item  new_item 
)
inline

Definition at line 1303 of file map.h.

1303 {
1304 add_item( tripoint( p, abs_sub.z ), new_item );
1305 }
tripoint abs_sub
Absolute coordinates of first submap (get_submap_at(0,0)) This is in submap coordinates (see overmapb...
Definition: map.h:1835
item & add_item(const tripoint &p, item new_item)
Place an item on the map, despite the parameter name, this is not necessarily a new item.
Definition: map.cpp:4316

References abs_sub, add_item(), and tripoint::z.

◆ add_item() [2/2]

item & map::add_item ( const tripoint p,
item  new_item 
)

Place an item on the map, despite the parameter name, this is not necessarily a new item.

WARNING: does -not- check volume or stack charges. player functions (drop etc) should use map::add_item_or_charges

Returns
The item that got added, or nulitem.

Definition at line 4316 of file map.cpp.

4317{
4318 if( !inbounds( p ) ) {
4319 return null_item_reference();
4320 }
4321 point l;
4322 submap *const current_submap = get_submap_at( p, l );
4323
4324 // Process foods when they are added to the map, here instead of add_item_at()
4325 // to avoid double processing food and corpses during active item processing.
4326 if( new_item.is_food() ) {
4327 new_item.process( nullptr, p, false );
4328 }
4329
4330 if( new_item.made_of( LIQUID ) && has_flag( "SWIMMABLE", p ) ) {
4331 return null_item_reference();
4332 }
4333
4334 if( has_flag( "DESTROY_ITEM", p ) ) {
4335 return null_item_reference();
4336 }
4337
4338 if( new_item.has_flag( "ACT_IN_FIRE" ) && get_field( p, fd_fire ) != nullptr ) {
4339 if( new_item.has_flag( "BOMB" ) && new_item.is_transformable() ) {
4340 //Convert a bomb item into its transformable version, e.g. incendiary grenade -> active incendiary grenade
4341 new_item.convert( dynamic_cast<const iuse_transform *>
4342 ( new_item.type->get_use( "transform" )->get_actor_ptr() )->target );
4343 }
4344 new_item.active = true;
4345 }
4346
4347 if( new_item.is_map() && !new_item.has_var( "reveal_map_center_omt" ) ) {
4348 new_item.set_var( "reveal_map_center_omt", ms_to_omt_copy( getabs( p ) ) );
4349 }
4350
4351 current_submap->is_uniform = false;
4353
4354 current_submap->update_lum_add( l, new_item );
4355
4356 const map_stack::iterator new_pos = current_submap->get_items( l ).insert( new_item );
4357 if( new_item.needs_processing() ) {
4358 if( current_submap->active_items.empty() ) {
4359 submaps_with_active_items.insert( tripoint( abs_sub.x + p.x / SEEX, abs_sub.y + p.y / SEEY, p.z ) );
4360 }
4361 current_submap->active_items.add( *new_pos, l );
4362 }
4363
4364 return *new_pos;
4365}
void add(item &it, point location)
Adds the reference to the cache.
bool empty() const
Returns true if the cache is empty.
bool is_transformable() const
Definition: item.cpp:6829
bool needs_processing() const
Whether the item should be processed (by calling process).
Definition: item.cpp:8793
bool active
Definition: item.h:2233
bool process(player *carrier, const tripoint &pos, bool activate, float insulation=1, temperature_flag flag=temperature_flag::TEMP_NORMAL)
This is called once each turn.
Definition: item.cpp:9447
const std::vector< material_id > & made_of() const
The ids of all the materials this is made of.
Definition: item.cpp:6284
item & convert(const itype_id &new_type)
Filter converting this instance to another type preserving all other aspects.
Definition: item.cpp:533
bool has_var(const std::string &name) const
Whether the variable is defined at all.
Definition: item.cpp:1070
void set_var(const std::string &name, int value)
Definition: item.cpp:995
bool has_flag(const std::string &flag) const
Definition: item.cpp:5213
bool is_map() const
Definition: item.cpp:6585
bool is_food() const
Definition: item.cpp:6463
const itype * type
Definition: item.h:2156
Transform an item into a specific type.
Definition: iuse_actor.h:52
itype_id target
type of the resulting item
Definition: iuse_actor.h:58
std::set< tripoint > submaps_with_active_items
Set of submaps that contain active items in absolute coordinates.
Definition: map.h:2013
field_entry * get_field(const tripoint &p, const field_type_id &type)
Get field of specific type at point.
Definition: map.cpp:5365
tripoint getabs(const tripoint &p) const
Translates local (to this map) coordinates of a square to global absolute coordinates.
Definition: map.cpp:8249
void update_lum_add(const point &p, const item &i)
Definition: submap.h:130
active_item_cache active_items
Definition: submap.h:237
point ms_to_omt_copy(const point &p)
@ LIQUID
Definition: enums.h:175
field_type_id fd_fire
Definition: field_type.cpp:345
item & null_item_reference()
Returns a reference to a null item (see item::is_null).
Definition: item.cpp:322
const use_function * get_use(const std::string &iuse_name) const
Definition: itype.cpp:91
iuse_actor * get_actor_ptr()
Definition: iuse.h:314

References abs_sub, item::active, submap::active_items, active_item_cache::add(), item::convert(), active_item_cache::empty(), fd_fire, use_function::get_actor_ptr(), get_field(), submap::get_items(), get_submap_at(), itype::get_use(), getabs(), item::has_flag(), has_flag(), item::has_var(), inbounds(), invalidate_max_populated_zlev(), item::is_food(), item::is_map(), item::is_transformable(), submap::is_uniform, LIQUID, item::made_of(), ms_to_omt_copy(), item::needs_processing(), null_item_reference(), item::process(), SEEX, SEEY, item::set_var(), submaps_with_active_items, iuse_transform::target, item::type, submap::update_lum_add(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by add_item(), add_item_or_charges(), iexamine::arcfurnace_empty(), iexamine::arcfurnace_full(), draw_mine(), extract_or_wreck_cbms(), iexamine::fvat_empty(), iexamine::fvat_full(), iexamine::keg(), iexamine::kiln_empty(), iexamine::kiln_full(), mill_activate(), mill_load_food(), Character::perform_uninstall(), place_gas_pump(), place_toilet(), iexamine::pour_into_keg(), iexamine::reload_furniture(), smoker_activate(), smoker_load_food(), Character::uninstall_bionic(), and avatar_action::wield().

◆ add_item_or_charges() [1/2]

item & map::add_item_or_charges ( const point p,
item  obj,
bool  overflow = true 
)
inline

Definition at line 1291 of file map.h.

1291 {
1292 return add_item_or_charges( tripoint( p, abs_sub.z ), obj, overflow );
1293 }

References abs_sub, add_item_or_charges(), and tripoint::z.

◆ add_item_or_charges() [2/2]

item & map::add_item_or_charges ( const tripoint pos,
item  obj,
bool  overflow = true 
)

Adds an item to map tile or stacks charges.

Parameters
posWhere to add item
objItem to add
overflowif destination is full attempt to drop on adjacent tiles
Returns
reference to dropped (and possibly stacked) item or null item on failure
Warning
function is relatively expensive and meant for user initiated actions, not mapgen

Definition at line 4216 of file map.cpp.

4217{
4218 // Checks if item would not be destroyed if added to this tile
4219 auto valid_tile = [&]( const tripoint & e ) {
4220 if( !inbounds( e ) ) {
4221 // should never happen
4222 debugmsg( "add_item_or_charges: %s is out of bounds (adding item '%s' [%d])",
4223 e.to_string(), obj.typeId().c_str(), obj.charges );
4224 return false;
4225 }
4226
4227 // Some tiles destroy items (e.g. lava)
4228 if( has_flag( "DESTROY_ITEM", e ) ) {
4229 return false;
4230 }
4231
4232 // Cannot drop liquids into tiles that are comprised of liquid
4233 if( obj.made_of( LIQUID ) && has_flag( "SWIMMABLE", e ) ) {
4234 return false;
4235 }
4236
4237 return true;
4238 };
4239
4240 // Checks if sufficient space at tile to add item
4241 auto valid_limits = [&]( const tripoint & e ) {
4242 return obj.volume() <= free_volume( e ) && i_at( e ).size() < MAX_ITEM_IN_SQUARE;
4243 };
4244
4245 // Performs the actual insertion of the object onto the map
4246 auto place_item = [&]( const tripoint & tile ) -> item& {
4247 if( obj.count_by_charges() )
4248 {
4249 for( auto &e : i_at( tile ) ) {
4250 if( e.merge_charges( obj ) ) {
4251 return e;
4252 }
4253 }
4254 }
4255
4256 support_dirty( tile );
4257 return add_item( tile, obj );
4258 };
4259
4260 // Some items never exist on map as a discrete item (must be contained by another item)
4261 if( obj.has_flag( "NO_DROP" ) ) {
4262 return null_item_reference();
4263 }
4264
4265 // If intended drop tile destroys the item then we don't attempt to overflow
4266 if( !valid_tile( pos ) ) {
4267 return null_item_reference();
4268 }
4269
4270 if( ( !has_flag( "NOITEM", pos ) || ( has_flag( "LIQUIDCONT", pos ) && obj.made_of( LIQUID ) ) )
4271 && valid_limits( pos ) ) {
4272 // Pass map into on_drop, because this map may not be the global map object (in mapgen, for instance).
4273 if( obj.made_of( LIQUID ) || !obj.has_flag( "DROP_ACTION_ONLY_IF_LIQUID" ) ) {
4274 if( obj.on_drop( pos, *this ) ) {
4275 return null_item_reference();
4276 }
4277
4278 }
4279 // If tile can contain items place here...
4280 return place_item( pos );
4281
4282 } else if( overflow ) {
4283 // ...otherwise try to overflow to adjacent tiles (if permitted)
4284 const int max_dist = 2;
4285 std::vector<tripoint> tiles = closest_points_first( pos, max_dist );
4286 tiles.erase( tiles.begin() ); // we already tried this position
4287 const int max_path_length = 4 * max_dist;
4288 const pathfinding_settings setting( 0, max_dist, max_path_length, 0, false, true, false, false,
4289 false );
4290 for( const tripoint &e : tiles ) {
4291 if( !inbounds( e ) ) {
4292 continue;
4293 }
4294 //must be a path to the target tile
4295 if( route( pos, e, setting ).empty() ) {
4296 continue;
4297 }
4298 if( obj.made_of( LIQUID ) || !obj.has_flag( "DROP_ACTION_ONLY_IF_LIQUID" ) ) {
4299 if( obj.on_drop( e, *this ) ) {
4300 return null_item_reference();
4301 }
4302 }
4303
4304 if( !valid_tile( e ) || !valid_limits( e ) ||
4305 has_flag( "NOITEM", e ) || has_flag( "SEALED", e ) ) {
4306 continue;
4307 }
4308 return place_item( e );
4309 }
4310 }
4311
4312 // failed due to lack of space at target tile (+/- overflow tiles)
4313 return null_item_reference();
4314}
size_t size() const
Definition: item_stack.cpp:10
bool count_by_charges() const
Definition: item.cpp:5876
units::volume volume(bool integral=false) const
Total volume of an item accounting for all contained/integrated items NOTE: Result is rounded up to n...
Definition: item.cpp:5012
int charges
Definition: item.h:2195
bool on_drop(const tripoint &pos)
Invokes item type's itype::drop_action.
Definition: item.cpp:9835
const itype_id & typeId() const
return the unique identifier of the items underlying type
Definition: item.cpp:8217
map_stack i_at(const tripoint &p)
Definition: map.cpp:4071
units::volume free_volume(const tripoint &p)
Definition: map.cpp:4211
std::vector< tripoint > route(const tripoint &f, const tripoint &t, const pathfinding_settings &settings, const std::set< tripoint > &pre_closed={{ }}) const
Calculate the best path using A*.
const char * c_str() const
Interface to the plain C-string of the id.
Definition: string_id.h:247
std::vector< coords::coord_point< Point, Origin, Scale > > closest_points_first(const coords::coord_point< Point, Origin, Scale > &loc, int min_dist, int max_dist)
Definition: coordinates.h:596
static constexpr int MAX_ITEM_IN_SQUARE

References add_item(), string_id< T >::c_str(), item::charges, closest_points_first(), item::count_by_charges(), debugmsg, free_volume(), item::has_flag(), has_flag(), i_at(), inbounds(), LIQUID, item::made_of(), MAX_ITEM_IN_SQUARE, null_item_reference(), item::on_drop(), wrapped_vehicle::pos, route(), item_stack::size(), support_dirty(), item::typeId(), and item::volume().

Referenced by Character::absorb_hit(), computer_session::action_conveyor(), computer_session::action_data_anal(), computer_session::action_sample(), Character::activate_bionic(), add_corpse(), add_item_or_charges(), MapgenRemovePartHandler::add_item_or_charges(), jmapgen_liquid_item::apply(), butchery_drops_harvest(), butchery_quarter(), defense_game::caravan(), game::catch_a_monster(), activity_handlers::chop_logs_finish(), doors::close_door(), talk_function::companion_return(), complete_construction(), cycle_action(), iexamine::deployed_furniture(), game::disable_robot(), basecamp::distribute_food(), draw_lab(), Character::drop_invalid_inventory(), drop_items(), npc::drop_items(), drop_on_map(), drop_or_embed_projectile(), talk_function::drop_stolen_item(), talk_function::drop_weapon(), iexamine::elevator(), explosion_handler::emp_blast(), farm_action(), fetch_activity(), talk_function::field_plant(), activity_handlers::fill_liquid_do_turn(), iexamine::fireplace(), game::forced_door_closing(), fromPumpFuel(), iexamine::fvat_full(), iexamine::gaspump(), handle_harvest(), pickup::handle_spillable_contents(), iexamine::harvest_plant(), Character::i_add_or_drop(), map_stack::insert(), make_mon_corpse(), make_rubble(), mill_activate(), move_item(), MapExtras::mx_grave(), MapExtras::mx_mayhem(), MapExtras::mx_minefield(), iexamine::nanofab(), om_set_hide_site(), liquid_handler::perform_liquid_transfer(), iexamine::pit_covered(), Character::place_corpse(), basecamp::place_results(), activity_handlers::plant_seed_finish(), talk_function::player_weapon_drop(), iexamine::portable_structure(), process_fields_in_submap(), put_into_vehicle(), iexamine::quern_examine(), rcdrive(), rod_fish(), scatter_chunks(), set_item_map(), activity_handlers::shear_finish(), smash_items(), smoker_activate(), iexamine::smoker_options(), spawn_an_item(), spawn_artifact(), spawn_items(), spawn_natural_artifact(), item_contents::spill_contents(), mdeath::splatter(), stash_on_pet(), iexamine::toPumpFuel(), iexamine::trap(), iexamine::tree_maple(), iexamine::tree_maple_tapped(), unroll_digging(), and unpack_actor::use().

◆ add_light_from_items()

void map::add_light_from_items ( const tripoint p,
item_stack::iterator  begin,
item_stack::iterator  end 
)
private

Definition at line 63 of file lightmap.cpp.

65{
66 for( auto itm_it = begin; itm_it != end; ++itm_it ) {
67 float ilum = 0.0f; // brightness
68 units::angle iwidth = 0_degrees; // 0-360 degrees. 0 is a circular light_source
69 units::angle idir = 0_degrees; // otherwise, it's a light_arc pointed in this direction
70 if( itm_it->getlight( ilum, iwidth, idir ) ) {
71 if( iwidth > 0_degrees ) {
72 apply_light_arc( p, idir, ilum, iwidth );
73 } else {
74 add_light_source( p, ilum );
75 }
76 }
77 }
78}
void apply_light_arc(const tripoint &p, units::angle, float luminance, units::angle wideangle=30_degrees)
Definition: lightmap.cpp:1551
void add_light_source(const tripoint &p, float luminance)
Definition: lightmap.cpp:584

References add_light_source(), and apply_light_arc().

Referenced by generate_lightmap().

◆ add_light_source()

void map::add_light_source ( const tripoint p,
float  luminance 
)
private

Definition at line 584 of file lightmap.cpp.

585{
586 auto &light_source_buffer = get_cache( p.z ).light_source_buffer;
587 light_source_buffer[p.x][p.y] = std::max( luminance, light_source_buffer[p.x][p.y] );
588}
float light_source_buffer[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:318

References get_cache(), level_cache::light_source_buffer, tripoint::x, tripoint::y, and tripoint::z.

Referenced by add_light_from_items(), and generate_lightmap().

◆ add_roofs()

void map::add_roofs ( const tripoint grid)
protected

Hacks in missing roofs.

Should be removed when 3D mapgen is done.

Definition at line 7448 of file map.cpp.

7449{
7450 if( !zlevels ) {
7451 // No roofs required!
7452 // Why not? Because submaps below and above don't exist yet
7453 return;
7454 }
7455
7456 submap *const sub_here = get_submap_at_grid( grid );
7457 if( sub_here == nullptr ) {
7458 debugmsg( "Tried to add roofs/floors on null submap on %d,%d,%d",
7459 grid.x, grid.y, grid.z );
7460 return;
7461 }
7462
7463 bool check_roof = grid.z > -OVERMAP_DEPTH;
7464
7465 submap *const sub_below = check_roof ? get_submap_at_grid( grid + tripoint_below ) : nullptr;
7466
7467 if( check_roof && sub_below == nullptr ) {
7468 debugmsg( "Tried to add roofs to sm at %d,%d,%d, but sm below doesn't exist",
7469 grid.x, grid.y, grid.z );
7470 return;
7471 }
7472
7473 for( int x = 0; x < SEEX; x++ ) {
7474 for( int y = 0; y < SEEY; y++ ) {
7475 const ter_id ter_here = sub_here->get_ter( { x, y } );
7476 if( ter_here != t_open_air ) {
7477 continue;
7478 }
7479
7480 if( !check_roof ) {
7481 // Make sure we don't have open air at lowest z-level
7482 sub_here->set_ter( { x, y }, t_rock_floor );
7483 continue;
7484 }
7485
7486 const ter_t &ter_below = sub_below->get_ter( { x, y } ).obj();
7487 if( ter_below.roof ) {
7488 // TODO: Make roof variable a ter_id to speed this up
7489 sub_here->set_ter( { x, y }, ter_below.roof.id() );
7490 }
7491 }
7492 }
7493}
int_id< T > id() const
Translate the string based it to the matching integer based id.
Definition: ammo_effect.cpp:54
void set_ter(const point &p, ter_id terr)
Definition: submap.h:103
ter_id t_open_air
Definition: mapdata.cpp:727
ter_id t_rock_floor
Definition: mapdata.cpp:627
static constexpr tripoint tripoint_below
Definition: point.h:295
ter_str_id roof
Definition: mapdata.h:467

References debugmsg, get_submap_at_grid(), submap::get_ter(), grid, string_id< T >::id(), OVERMAP_DEPTH, ter_t::roof, SEEX, SEEY, submap::set_ter(), t_open_air, t_rock_floor, tripoint_below, and zlevels.

Referenced by loadn(), and shift().

◆ add_spawn()

void map::add_spawn ( const mtype_id type,
int  count,
const tripoint p,
bool  friendly = false,
int  faction_id = -1,
int  mission_id = -1,
const std::string &  name = "NONE" 
) const

Definition at line 5578 of file mapgen.cpp.

5580{
5581 if( p.x < 0 || p.x >= SEEX * my_MAPSIZE || p.y < 0 || p.y >= SEEY * my_MAPSIZE ) {
5582 debugmsg( "Bad add_spawn(%s, %d, %d, %d)", type.c_str(), count, p.x, p.y );
5583 return;
5584 }
5585 point offset;
5586 submap *place_on_submap = get_submap_at( p, offset );
5587
5588 if( !place_on_submap ) {
5589 debugmsg( "centadodecamonant doesn't exist in grid; within add_spawn(%s, %d, %d, %d, %d)",
5590 type.c_str(), count, p.x, p.y, p.z );
5591 return;
5592 }
5594 return;
5595 }
5596 spawn_point tmp( type, count, offset, faction_id, mission_id, friendly, name );
5597 place_on_submap->spawns.push_back( tmp );
5598}
static bool monster_is_blacklisted(const mtype_id &m)
Definition: mongroup.cpp:280
std::vector< spawn_point > spawns
Definition: submap.h:241
@ type
Definition: enums.h:75
constexpr size_t count()
Definition: fmtlib_core.h:1073

References detail::count(), debugmsg, friendly, get_submap_at(), MonsterGroupManager::monster_is_blacklisted(), my_MAPSIZE, name(), SEEX, SEEY, submap::spawns, type, tripoint::x, tripoint::y, and tripoint::z.

Referenced by jmapgen_monster::apply(), generate(), mission_start::kill_horde_master(), mapgen_ants_generic(), mapgen_ants_larvae(), mapgen_ants_queen(), mapgen_hive(), mapgen_road(), MapExtras::mx_collegekids(), MapExtras::mx_drugdeal(), MapExtras::mx_helicopter(), MapExtras::mx_house_spider(), MapExtras::mx_house_wasp(), MapExtras::mx_jabberwock(), MapExtras::mx_marloss_pilgrimage(), MapExtras::mx_military(), MapExtras::mx_roadblock(), MapExtras::mx_science(), MapExtras::mx_shia(), MapExtras::mx_spider(), mission_start::place_dog(), place_spawns(), mission_start::place_zombie_mom(), process_fields_in_submap(), and rotten_item_spawn().

◆ add_splash()

void map::add_splash ( const field_type_id type,
const tripoint center,
int  radius,
int  intensity 
)

Definition at line 5520 of file map.cpp.

5522{
5523 if( !type.id() ) {
5524 return;
5525 }
5526 // TODO: use Bresenham here and take obstacles into account
5527 for( const tripoint &pnt : points_in_radius( center, radius ) ) {
5528 if( trig_dist( pnt, center ) <= radius && !one_in( intensity ) ) {
5529 add_splatter( type, pnt );
5530 }
5531 }
5532}
tripoint_range< tripoint > points_in_radius(const tripoint &center, size_t radius, size_t radiusz=0) const
Definition: map.cpp:8593
void add_splatter(const field_type_id &type, const tripoint &where, int intensity=1)
Definition: map.cpp:5471
int trig_dist(const coords::coord_point< Point, Origin, Scale > &loc1, const coords::coord_point< Point, Origin, Scale > &loc2)
Definition: coordinates.h:512

References add_splatter(), center, one_in(), points_in_radius(), trig_dist(), and type.

Referenced by smash_items().

◆ add_splatter()

void map::add_splatter ( const field_type_id type,
const tripoint where,
int  intensity = 1 
)

Definition at line 5471 of file map.cpp.

5472{
5473 if( !type.id() || intensity <= 0 ) {
5474 return;
5475 }
5476 if( type.obj().is_splattering ) {
5477 if( const optional_vpart_position vp = veh_at( where ) ) {
5478 vehicle *const veh = &vp->vehicle();
5479 // Might be -1 if all the vehicle's parts at where are marked for removal
5480 const int part = veh->part_displayed_at( vp->mount() );
5481 if( part != -1 ) {
5482 veh->part( part ).blood += 200 * std::min( intensity, 3 ) / 3;
5483 return;
5484 }
5485 }
5486 }
5487 mod_field_intensity( where, type, intensity );
5488}
optional_vpart_position veh_at(const tripoint &p) const
Checks if tile is occupied by vehicle and by which part.
Definition: map.cpp:1006
int mod_field_intensity(const tripoint &p, const field_type_id &type, int offset)
Increment/decrement intensity of field entry at point, creating if not present, removing if intensity...
Definition: map.cpp:5314
Simple wrapper to forward functions that may return a cata::optional to vpart_position.
A vehicle as a whole with all its components.
Definition: vehicle.h:675
vehicle(const vproto_id &type_id, int init_veh_fuel=-1, int init_veh_status=-1)
Definition: vehicle.cpp:251
vehicle_part & part(int part_num)
Definition: vehicle.cpp:7080
int part_displayed_at(const point &dp) const
Returns which part (as an index into the parts list) is the one that will be displayed for the given ...
Definition: vehicle.cpp:2970
int blood
how much blood covers part (in turns).
Definition: vehicle.h:398

References vehicle_part::blood, mod_field_intensity(), vehicle::part(), vehicle::part_displayed_at(), type, veh_at(), and vehicle::vehicle().

Referenced by add_splash(), add_splatter_trail(), Creature::bleed(), activity_handlers::butcher_finish(), scatter_chunks(), and mdeath::splatter().

◆ add_splatter_trail()

void map::add_splatter_trail ( const field_type_id type,
const tripoint from,
const tripoint to 
)

Definition at line 5490 of file map.cpp.

5492{
5493 if( !type.id() ) {
5494 return;
5495 }
5496 auto trail = line_to( from, to );
5497 int remainder = trail.size();
5498 tripoint last_point = from;
5499 for( tripoint &elem : trail ) {
5500 add_splatter( type, elem );
5501 remainder--;
5502 if( obstructed_by_vehicle_rotation( last_point, elem ) ) {
5503 if( one_in( 2 ) ) {
5504 elem.x = last_point.x;
5505 add_splatter( type, elem, remainder );
5506 } else {
5507 elem.y = last_point.y;
5508 add_splatter( type, elem, remainder );
5509 }
5510 return;
5511 }
5512 if( impassable( elem ) ) { // Blood splatters stop at walls.
5513 add_splatter( type, elem, remainder );
5514 return;
5515 }
5516 last_point = elem;
5517 }
5518}
bool obstructed_by_vehicle_rotation(const tripoint &from, const tripoint &to) const
Checks if a rotated vehicle is blocking diagonal movement, tripoints must be adjacent.
Definition: map.cpp:6474
bool impassable(const tripoint &p) const
Definition: map.cpp:1792
std::vector< coords::coord_point< Point, Origin, Scale > > line_to(const coords::coord_point< Point, Origin, Scale > &loc1, const coords::coord_point< Point, Origin, Scale > &loc2)
Definition: coordinates.h:548

References add_splatter(), impassable(), line_to(), obstructed_by_vehicle_rotation(), one_in(), type, tripoint::x, and tripoint::y.

Referenced by activity_handlers::butcher_finish(), MapExtras::mx_casings(), MapExtras::mx_mayhem(), MapExtras::mx_minefield(), projectile_attack(), and activity_handlers::pulp_do_turn().

◆ add_vehicle() [1/4]

vehicle * map::add_vehicle ( const vgroup_id type,
const point p,
units::angle  dir,
int  init_veh_fuel = -1,
int  init_veh_status = -1,
bool  merge_wrecks = true 
)

Definition at line 5606 of file mapgen.cpp.

5608{
5609 return add_vehicle( type.obj().pick(), p, dir, veh_fuel, veh_status, merge_wrecks );
5610}
vehicle * add_vehicle(const vgroup_id &type, const tripoint &p, units::angle dir, int init_veh_fuel=-1, int init_veh_status=-1, bool merge_wrecks=true)
Definition: mapgen.cpp:5600

References add_vehicle(), and type.

◆ add_vehicle() [2/4]

◆ add_vehicle() [3/4]

vehicle * map::add_vehicle ( const vproto_id type,
const point p,
units::angle  dir,
int  init_veh_fuel = -1,
int  init_veh_status = -1,
bool  merge_wrecks = true 
)

Definition at line 5612 of file mapgen.cpp.

5614{
5615 return add_vehicle( type, tripoint( p, abs_sub.z ), dir, veh_fuel, veh_status, merge_wrecks );
5616}

References abs_sub, add_vehicle(), type, and tripoint::z.

◆ add_vehicle() [4/4]

vehicle * map::add_vehicle ( const vproto_id type,
const tripoint p,
units::angle  dir,
int  init_veh_fuel = -1,
int  init_veh_status = -1,
bool  merge_wrecks = true 
)

Definition at line 5618 of file mapgen.cpp.

5620{
5621 if( !type.is_valid() ) {
5622 debugmsg( "Nonexistent vehicle type: \"%s\"", type.c_str() );
5623 return nullptr;
5624 }
5625 if( !inbounds( p ) ) {
5626 dbg( DL::Warn ) << string_format( "Out of bounds add_vehicle t=%s d=%d p=%s",
5627 type, to_degrees( dir ), p.to_string() );
5628 return nullptr;
5629 }
5630
5631 // debugmsg("n=%d x=%d y=%d MAPSIZE=%d ^2=%d", nonant, x, y, MAPSIZE, MAPSIZE*MAPSIZE);
5632 auto veh = std::make_unique<vehicle>( type, veh_fuel, veh_status );
5633 tripoint p_ms = p;
5634 veh->sm_pos = ms_to_sm_remain( p_ms );
5635 veh->pos = p_ms.xy();
5636 veh->place_spawn_items();
5637 // for backwards compatibility, we always spawn with a pivot point of (0,0) so
5638 // that the mount at (0,0) is located at the spawn position.
5639 veh->set_facing_and_pivot( dir, point_zero, false );
5640 //debugmsg("adding veh: %d, sm: %d,%d,%d, pos: %d, %d", veh, veh->smx, veh->smy, veh->smz, veh->posx, veh->posy);
5641 std::unique_ptr<vehicle> placed_vehicle_up =
5642 add_vehicle_to_map( std::move( veh ), merge_wrecks );
5643 vehicle *placed_vehicle = placed_vehicle_up.get();
5644
5645 if( placed_vehicle != nullptr ) {
5646 submap *place_on_submap = get_submap_at_grid( placed_vehicle->sm_pos );
5647 place_on_submap->vehicles.push_back( std::move( placed_vehicle_up ) );
5648 place_on_submap->is_uniform = false;
5650
5651 auto &ch = get_cache( placed_vehicle->sm_pos.z );
5652 ch.vehicle_list.insert( placed_vehicle );
5653 add_vehicle_to_cache( placed_vehicle );
5654
5655 //debugmsg ("grid[%d]->vehicles.size=%d veh.parts.size=%d", nonant, grid[nonant]->vehicles.size(),veh.parts.size());
5656 }
5657 return placed_vehicle;
5658}
std::unique_ptr< vehicle > add_vehicle_to_map(std::unique_ptr< vehicle > veh, bool merge_wrecks)
Takes a vehicle already created with new and attempts to place it on the map, checking for collisions...
Definition: mapgen.cpp:5669
void add_vehicle_to_cache(vehicle *)
Definition: map.cpp:269
std::vector< std::unique_ptr< vehicle > > vehicles
Vehicles on this submap (their (0,0) point is on this submap).
Definition: submap.h:247
tripoint sm_pos
Submap coordinates of the currently loaded submap (see game::m) that contains this vehicle.
Definition: vehicle.h:1901
point ms_to_sm_remain(int &x, int &y)
@ Warn
Warning (default: enabled).
#define dbg(x)
Definition: mapgen.cpp:97
bool move(avatar &you, map &m, const tripoint &d)
constexpr double to_degrees(const units::angle v)
Definition: units_angle.h:36
static constexpr point point_zero
Definition: point.h:274
std::string string_format(std::string format, Args &&...args)
Simple wrapper over string_formatter::parse.
constexpr point xy() const
Definition: point.h:220
std::string to_string() const
Definition: point.cpp:16

References add_vehicle_to_cache(), add_vehicle_to_map(), dbg, debugmsg, get_cache(), get_submap_at_grid(), inbounds(), invalidate_max_populated_zlev(), submap::is_uniform, avatar_action::move(), ms_to_sm_remain(), point_zero, vehicle::sm_pos, string_format(), units::to_degrees(), tripoint::to_string(), type, submap::vehicles, Warn, tripoint::xy(), and tripoint::z.

◆ add_vehicle_to_cache()

void map::add_vehicle_to_cache ( vehicle veh)

Definition at line 269 of file map.cpp.

270{
271 if( veh == nullptr ) {
272 debugmsg( "Tried to add null vehicle to cache" );
273 return;
274 }
275
276 // Get parts
277 for( const vpart_reference &vpr : veh->get_all_parts() ) {
278 if( vpr.part().removed ) {
279 continue;
280 }
281 const tripoint p = veh->global_part_pos3( vpr.part() );
282 level_cache &ch = get_cache( p.z );
283 ch.veh_in_active_range = true;
284 ch.veh_cached_parts[p] = std::make_pair( veh, static_cast<int>( vpr.part_index() ) );
285 if( inbounds( p ) ) {
286 ch.veh_exists_at[p.x][p.y] = true;
287 }
288 }
289
291}
bool last_full_vehicle_list_dirty
Definition: map.h:2024
vehicle_part_range get_all_parts() const
Yields a range containing all parts (including broken ones) that can be iterated over.
Definition: vehicle.cpp:7070
tripoint global_part_pos3(const int &index) const
Get the coordinates of the studied part of the vehicle.
Definition: vehicle.cpp:3286
This is a wrapper over a vehicle pointer and a reference to a part of it.
bool veh_in_active_range
Definition: map.h:359
bool veh_exists_at[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:360
std::map< tripoint, std::pair< vehicle *, int > > veh_cached_parts
Definition: map.h:361

References debugmsg, vehicle::get_all_parts(), get_cache(), vehicle::global_part_pos3(), inbounds(), last_full_vehicle_list_dirty, level_cache::veh_cached_parts, level_cache::veh_exists_at, level_cache::veh_in_active_range, tripoint::x, tripoint::y, and tripoint::z.

Referenced by add_vehicle(), veh_interact::complete_vehicle(), displace_vehicle(), construct::done_vehicle(), loadn(), vehicle::part_removal_cleanup(), and reset_vehicle_cache().

◆ add_vehicle_to_map()

std::unique_ptr< vehicle > map::add_vehicle_to_map ( std::unique_ptr< vehicle veh,
bool  merge_wrecks 
)
private

Takes a vehicle already created with new and attempts to place it on the map, checking for collisions.

If the vehicle can't be placed, returns NULL, otherwise returns a pointer to the placed vehicle, which may not necessarily be the one passed in (if wreckage is created by fusing cars).

Parameters
vehThe vehicle to place on the map.
merge_wrecksWhether crashed vehicles become part of each other
Returns
The vehicle that was finally placed.

Definition at line 5669 of file mapgen.cpp.

5671{
5672 //We only want to check once per square, so loop over all structural parts
5673 std::vector<int> frame_indices = veh->all_parts_at_location( "structure" );
5674
5675 //Check for boat type vehicles that should be placeable in deep water
5676 const bool can_float = size( veh->get_avail_parts( "FLOATS" ) ) > 2;
5677
5678 //When hitting a wall, only smash the vehicle once (but walls many times)
5679 bool needs_smashing = false;
5680
5681 veh->attach();
5682 veh->refresh_position();
5683
5684 for( std::vector<int>::const_iterator part = frame_indices.begin();
5685 part != frame_indices.end(); part++ ) {
5686 const auto p = veh->global_part_pos3( *part );
5687
5688 //Don't spawn anything in water
5689 if( has_flag_ter( TFLAG_DEEP_WATER, p ) && !can_float ) {
5690 return nullptr;
5691 }
5692
5693 // Don't spawn shopping carts on top of another vehicle or other obstacle.
5694 if( veh->type == vproto_id( "shopping_cart" ) ) {
5695 if( veh_at( p ) || impassable( p ) ) {
5696 return nullptr;
5697 }
5698 }
5699
5700 //For other vehicles, simulate collisions with (non-shopping cart) stuff
5701 vehicle *const other_veh = veh_pointer_or_null( veh_at( p ) );
5702 if( other_veh != nullptr && other_veh->type != vproto_id( "shopping_cart" ) ) {
5703 if( !merge_wrecks ) {
5704 return nullptr;
5705 }
5706
5707 // Hard wreck-merging limit: 200 tiles
5708 // Merging is slow for big vehicles which lags the mapgen
5709 if( frame_indices.size() + other_veh->all_parts_at_location( "structure" ).size() > 200 ) {
5710 return nullptr;
5711 }
5712
5713 /* There's a vehicle here, so let's fuse them together into wreckage and
5714 * smash them up. It'll look like a nasty collision has occurred.
5715 * Trying to do a local->global->local conversion would be a major
5716 * headache, so instead, let's make another vehicle whose (0, 0) point
5717 * is the (0, 0) of the existing vehicle, convert the coordinates of both
5718 * vehicles into global coordinates, find the distance between them and
5719 * p and then install them that way.
5720 * Create a vehicle with type "null" so it starts out empty. */
5721 auto wreckage = std::make_unique<vehicle>();
5722 wreckage->pos = other_veh->pos;
5723 wreckage->sm_pos = other_veh->sm_pos;
5724
5725 //Where are we on the global scale?
5726 const tripoint global_pos = wreckage->global_pos3();
5727
5728 for( const vpart_reference &vpr : veh->get_all_parts() ) {
5729 const tripoint part_pos = veh->global_part_pos3( vpr.part() ) - global_pos;
5730 // TODO: change mount points to be tripoint
5731 wreckage->install_part( part_pos.xy(), vpr.part() );
5732 }
5733
5734 for( const vpart_reference &vpr : other_veh->get_all_parts() ) {
5735 const tripoint part_pos = other_veh->global_part_pos3( vpr.part() ) - global_pos;
5736 wreckage->install_part( part_pos.xy(), vpr.part() );
5737
5738 }
5739
5740 wreckage->name = _( "Wreckage" );
5741
5742 // Now get rid of the old vehicles
5743 std::unique_ptr<vehicle> old_veh = detach_vehicle( other_veh );
5744 // Failure has happened here when caches are corrupted due to bugs.
5745 // Add an assertion to avoid null-pointer dereference later.
5746 assert( old_veh );
5747
5748 // Try again with the wreckage
5749 std::unique_ptr<vehicle> new_veh = add_vehicle_to_map( std::move( wreckage ), true );
5750 if( new_veh != nullptr ) {
5751 new_veh->smash( *this );
5752 return new_veh;
5753 }
5754
5755 // If adding the wreck failed, we want to restore the vehicle we tried to merge with
5756 add_vehicle_to_map( std::move( old_veh ), false );
5757 return nullptr;
5758
5759 } else if( impassable( p ) ) {
5760 if( !merge_wrecks ) {
5761 return nullptr;
5762 }
5763
5764 // There's a wall or other obstacle here; destroy it
5765 destroy( p, true );
5766
5767 // Some weird terrain, don't place the vehicle
5768 if( impassable( p ) ) {
5769 return nullptr;
5770 }
5771
5772 needs_smashing = true;
5773 }
5774 }
5775
5776 if( needs_smashing ) {
5777 veh->smash( *this );
5778 }
5779
5780 return veh;
5781}
void destroy(const tripoint &p, bool silent=false)
Keeps bashing a square until it can't be bashed anymore.
Definition: map.cpp:3619
std::unique_ptr< vehicle > detach_vehicle(vehicle *veh)
Definition: map.cpp:352
bool has_flag_ter(const std::string &flag, const tripoint &p) const
Definition: map.cpp:2309
point pos
Position of the vehicle inside the submap that contains the vehicle.
Definition: vehicle.h:1916
vproto_id type
Type of the vehicle as it was spawned.
Definition: vehicle.h:1855
std::vector< int > all_parts_at_location(const std::string &location) const
Returns all parts in the vehicle that exist in the given location slot.
Definition: vehicle.cpp:2781
@ TFLAG_DEEP_WATER
Definition: mapdata.h:301
const size_t size
Definition: om_direction.h:27
#define _(msg)
Definition: translations.h:116
vehicle * veh_pointer_or_null(const optional_vpart_position &p)

References _, add_vehicle_to_map(), vehicle::all_parts_at_location(), destroy(), detach_vehicle(), vehicle::get_all_parts(), vehicle::global_part_pos3(), has_flag_ter(), impassable(), avatar_action::move(), vehicle::pos, om_direction::size, vehicle::sm_pos, TFLAG_DEEP_WATER, vehicle::type, veh_at(), veh_pointer_or_null(), and tripoint::xy().

Referenced by add_vehicle(), and add_vehicle_to_map().

◆ adjust_radiation() [1/2]

void map::adjust_radiation ( const point p,
const int  delta 
)
inline

Definition at line 1219 of file map.h.

1219 {
1220 adjust_radiation( tripoint( p, abs_sub.z ), delta );
1221 }
void adjust_radiation(const tripoint &p, int delta)
Increment the radiation in the given tile by the given delta (decrement it if delta is negative)
Definition: map.cpp:4039

References abs_sub, adjust_radiation(), and tripoint::z.

◆ adjust_radiation() [2/2]

void map::adjust_radiation ( const tripoint p,
int  delta 
)

Increment the radiation in the given tile by the given delta (decrement it if delta is negative)

Definition at line 4039 of file map.cpp.

4040{
4041 if( !inbounds( p ) ) {
4042 return;
4043 }
4044
4045 point l;
4046 submap *const current_submap = get_submap_at( p, l );
4047
4048 int current_radiation = current_submap->get_radiation( l );
4049 current_submap->set_radiation( l, current_radiation + delta );
4050}
void set_radiation(const point &p, const int radiation)
Definition: submap.h:116
int get_radiation(const point &p) const
Definition: submap.h:112

References submap::get_radiation(), get_submap_at(), inbounds(), and submap::set_radiation().

Referenced by computer_session::action_irradiator(), adjust_radiation(), MapExtras::mx_crater(), MapExtras::mx_portal_in(), and process_fields_in_submap().

◆ ambient_light_at()

float map::ambient_light_at ( const tripoint p) const

Definition at line 617 of file lightmap.cpp.

618{
619 if( !inbounds( p ) ) {
620 return 0.0f;
621 }
622
623 return get_cache_ref( p.z ).lm[p.x][p.y].max();
624}
const level_cache & get_cache_ref(int zlev) const
Definition: map.h:2040
float max() const
Definition: shadowcasting.h:45
four_quadrants lm[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:314

References get_cache_ref(), inbounds(), level_cache::lm, four_quadrants::max(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by apply_character_light(), game::print_terrain_info(), and Creature::sees().

◆ apparent_light_at()

lit_level map::apparent_light_at ( const tripoint p,
const visibility_variables cache 
) const

Determine the visible light level for a tile, based on light_at for the tile, vision distance, etc.

Parameters
pThe tile on this map to draw.
cacheCurrently cached visibility parameters

Definition at line 700 of file lightmap.cpp.

701{
702 const int dist = rl_dist( g->u.pos(), p );
703
704 // Clairvoyance overrides everything.
705 if( dist <= cache.u_clairvoyance ) {
706 return lit_level::BRIGHT;
707 }
708 const auto &map_cache = get_cache_ref( p.z );
709 const apparent_light_info a = apparent_light_helper( map_cache, p );
710
711 // Unimpaired range is an override to strictly limit vision range based on various conditions,
712 // but the player can still see light sources.
713 if( dist > g->u.unimpaired_range() ) {
714 if( !a.obstructed && map_cache.sm[p.x][p.y] > 0.0 ) {
716 } else {
717 return lit_level::DARK;
718 }
719 }
720 if( a.obstructed ) {
721 if( a.apparent_light > LIGHT_AMBIENT_LIT ) {
722 if( a.apparent_light > cache.g_light_level ) {
723 // This represents too hazy to see detail,
724 // but enough light getting through to illuminate.
726 } else {
727 // If it's not brighter than the surroundings, it just ends up shadowy.
728 return lit_level::LOW;
729 }
730 } else {
731 return lit_level::BLANK;
732 }
733 }
734 // Then we just search for the light level in descending order.
735 if( a.apparent_light > LIGHT_SOURCE_BRIGHT || map_cache.sm[p.x][p.y] > 0.0 ) {
736 return lit_level::BRIGHT;
737 }
738 if( a.apparent_light > LIGHT_AMBIENT_LIT ) {
739 return lit_level::LIT;
740 }
741 if( a.apparent_light >= cache.vision_threshold ) {
742 return lit_level::LOW;
743 } else {
744 return lit_level::BLANK;
745 }
746}
static apparent_light_info apparent_light_helper(const level_cache &map_cache, const tripoint &p)
Helper function for light claculation; exposed here for map editor.
Definition: lightmap.cpp:638
int rl_dist(const coords::coord_point< Point, Origin, Scale > &loc1, const coords::coord_point< Point, Origin, Scale > &loc2)
Definition: coordinates.h:519
static constexpr float LIGHT_SOURCE_BRIGHT
Definition: lightmap.h:9
static constexpr float LIGHT_AMBIENT_LIT
Definition: lightmap.h:18
constexpr double a
Definition: magic.cpp:1030
float vision_threshold
Definition: map.h:128
int u_clairvoyance
Definition: map.h:127

References a, apparent_light_helper(), BLANK, BRIGHT, BRIGHT_ONLY, DARK, g, visibility_variables::g_light_level, get_cache_ref(), LIGHT_AMBIENT_LIT, LIGHT_SOURCE_BRIGHT, LIT, LOW, rl_dist(), visibility_variables::u_clairvoyance, visibility_variables::vision_threshold, tripoint::x, tripoint::y, and tripoint::z.

Referenced by game::draw_look_around_cursor(), game::print_all_tile_info(), editmap::update_view_with_help(), and update_visibility_cache().

◆ apparent_light_helper()

map::apparent_light_info map::apparent_light_helper ( const level_cache map_cache,
const tripoint p 
)
static

Helper function for light claculation; exposed here for map editor.

Definition at line 638 of file lightmap.cpp.

640{
641 const float vis = std::max( map_cache.seen_cache[p.x][p.y], map_cache.camera_cache[p.x][p.y] );
642 const bool obstructed = vis <= LIGHT_TRANSPARENCY_SOLID + 0.1;
643
644 auto is_opaque = [&map_cache]( const point & p ) {
645 return map_cache.transparency_cache[p.x][p.y] <= LIGHT_TRANSPARENCY_SOLID &&
647 };
648
649 const bool p_opaque = is_opaque( p.xy() );
650 float apparent_light;
651
652 if( p_opaque && vis > 0 ) {
653 // This is the complicated case. We want to check which quadrants the
654 // player can see the tile from, and only count light values from those
655 // quadrants.
656 struct offset_and_quadrants {
657 point offset;
658 std::array<quadrant, 2> quadrants;
659 };
660 static constexpr std::array<offset_and_quadrants, 8> adjacent_offsets = {{
669 }
670 };
671
672 four_quadrants seen_from( 0 );
673 for( const offset_and_quadrants &oq : adjacent_offsets ) {
674 const point neighbour = p.xy() + oq.offset;
675
676 if( !lightmap_boundaries.contains( neighbour ) ) {
677 continue;
678 }
679 if( is_opaque( neighbour ) ) {
680 continue;
681 }
682 if( map_cache.seen_cache[neighbour.x][neighbour.y] == 0 &&
683 map_cache.camera_cache[neighbour.x][neighbour.y] == 0 ) {
684 continue;
685 }
686 // This is a non-opaque visible neighbour, so count visibility from the relevant
687 // quadrants
688 seen_from[oq.quadrants[0]] = vis;
689 seen_from[oq.quadrants[1]] = vis;
690 }
691 apparent_light = ( seen_from * map_cache.lm[p.x][p.y] ).max();
692 } else {
693 // This is the simple case, for a non-opaque tile light from all
694 // directions is equivalent
695 apparent_light = vis * map_cache.lm[p.x][p.y].max();
696 }
697 return { obstructed, apparent_light };
698}
const half_open_rectangle< point > lightmap_boundaries(lightmap_boundary_min, lightmap_boundary_max)
static constexpr float LIGHT_TRANSPARENCY_SOLID
Transparency 101: Transparency usually ranges between 0.038 (open air) and 0.38 (regular smoke).
Definition: lightmap.h:32
static constexpr point point_south_west
Definition: point.h:281
static constexpr point point_west
Definition: point.h:282
static constexpr point point_north_east
Definition: point.h:277
static constexpr point point_north_west
Definition: point.h:283
static constexpr point point_south_east
Definition: point.h:279
static constexpr point point_south
Definition: point.h:280
static constexpr point point_north
Definition: point.h:276
static constexpr point point_east
Definition: point.h:278
float seen_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:348
float transparency_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:332
float vision_transparency_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:344
float camera_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:352
int y
Definition: point.h:39
int x
Definition: point.h:38

References level_cache::camera_cache, LIGHT_TRANSPARENCY_SOLID, lightmap_boundaries, level_cache::lm, four_quadrants::max(), NE, NW, point_east, point_north, point_north_east, point_north_west, point_south, point_south_east, point_south_west, point_west, SE, level_cache::seen_cache, SW, level_cache::transparency_cache, level_cache::vision_transparency_cache, point::x, tripoint::x, tripoint::xy(), point::y, and tripoint::y.

Referenced by apparent_light_at(), pl_sees(), and editmap::update_view_with_help().

◆ apply_character_light()

void map::apply_character_light ( Character p)
protected

Definition at line 198 of file lightmap.cpp.

199{
200 if( p.has_effect( effect_onfire ) ) {
201 apply_light_source( p.pos(), 8 );
202 } else if( p.has_effect( effect_haslight ) ) {
203 apply_light_source( p.pos(), 4 );
204 }
205
206 const float held_luminance = p.active_light();
207 if( held_luminance > LIGHT_AMBIENT_LOW ) {
208 apply_light_source( p.pos(), held_luminance );
209 }
210
211 if( held_luminance >= 4 && held_luminance > ambient_light_at( p.pos() ) - 0.5f ) {
212 p.add_effect( effect_haslight, 1_turns );
213 }
214}
float active_light() const
Returns character luminosity based on the brightest active item they are carrying.
Definition: character.cpp:6377
void add_effect(const effect &eff, bool force=false, bool deferred=false)
Definition: creature.cpp:980
bool has_effect(const efftype_id &eff_id, body_part bp=num_bp) const
Check if creature has the matching effect.
Definition: creature.cpp:1179
void apply_light_source(const tripoint &p, float luminance)
Definition: lightmap.cpp:1430
float ambient_light_at(const tripoint &p) const
Definition: lightmap.cpp:617
static const efftype_id effect_haslight("haslight")
static const efftype_id effect_onfire("onfire")
static constexpr float LIGHT_AMBIENT_LOW
Definition: lightmap.h:14

References Character::active_light(), Creature::add_effect(), ambient_light_at(), apply_light_source(), effect_haslight, effect_onfire, Creature::has_effect(), LIGHT_AMBIENT_LOW, and Character::pos().

Referenced by generate_lightmap().

◆ apply_directional_light()

void map::apply_directional_light ( const tripoint p,
int  direction,
float  luminance 
)
private

Definition at line 1511 of file lightmap.cpp.

1512{
1513 const point p2( p.xy() );
1514
1515 auto &cache = get_cache( p.z );
1516 four_quadrants( &lm )[MAPSIZE_X][MAPSIZE_Y] = cache.lm;
1517 float ( &transparency_cache )[MAPSIZE_X][MAPSIZE_Y] = cache.transparency_cache;
1518 diagonal_blocks( &blocked_cache )[MAPSIZE_X][MAPSIZE_Y] = cache.vehicle_obscured_cache;
1519
1520 if( direction == 90 ) {
1521 castLight < 1, 0, 0, -1, float, four_quadrants, light_calc, light_check,
1523 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1524 castLight < -1, 0, 0, -1, float, four_quadrants, light_calc, light_check,
1526 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1527 } else if( direction == 0 ) {
1528 castLight < 0, -1, 1, 0, float, four_quadrants, light_calc, light_check,
1530 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1531 castLight < 0, -1, -1, 0, float, four_quadrants, light_calc, light_check,
1533 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1534 } else if( direction == 270 ) {
1535 castLight<1, 0, 0, 1, float, four_quadrants, light_calc, light_check,
1537 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1538 castLight < -1, 0, 0, 1, float, four_quadrants, light_calc, light_check,
1540 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1541 } else if( direction == 180 ) {
1542 castLight<0, 1, 1, 0, float, four_quadrants, light_calc, light_check,
1544 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1545 castLight < 0, 1, -1, 0, float, four_quadrants, light_calc, light_check,
1547 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1548 }
1549}
static constexpr int MAPSIZE_Y
static constexpr int MAPSIZE_X
void castLight(Out(&output_cache)[MAPSIZE_X][MAPSIZE_Y], const T(&input_array)[MAPSIZE_X][MAPSIZE_Y], const diagonal_blocks(&blocked_array)[MAPSIZE_X][MAPSIZE_Y], const point &offset, int offsetDistance, T numerator=VISIBILITY_FULL, int row=1, float start=1.0f, float end=0.0f, T cumulative_transparency=LIGHT_TRANSPARENCY_OPEN_AIR)
Definition: lightmap.cpp:1125
static bool light_check(const float &transparency, const float &intensity)
Definition: lightmap.cpp:1425
static float light_calc(const float &numerator, const float &transparency, const int &distance)
Definition: lightmap.cpp:1418
direction
Definition: line.h:39
void update_light_quadrants(four_quadrants &update, const float &new_value, quadrant q)
Definition: shadowcasting.h:97
float accumulate_transparency(const float &cumulative_transparency, const float &current_transparency, const int &distance)

References accumulate_transparency(), castLight(), get_cache(), light_calc(), light_check(), MAPSIZE_X, MAPSIZE_Y, update_light_quadrants(), tripoint::xy(), and tripoint::z.

Referenced by generate_lightmap().

◆ apply_faction_ownership()

void map::apply_faction_ownership ( const point p1,
const point p2,
const faction_id id 
)

Definition at line 5494 of file mapgen.cpp.

5495{
5496 for( const tripoint &p : points_in_rectangle( tripoint( p1, abs_sub.z ), tripoint( p2,
5497 abs_sub.z ) ) ) {
5498 auto items = i_at( p.xy() );
5499 for( item &elem : items ) {
5500 elem.set_owner( id );
5501 }
5502 vehicle *source_veh = veh_pointer_or_null( veh_at( p ) );
5503 if( source_veh ) {
5504 if( !source_veh->has_owner() ) {
5505 source_veh->set_owner( id );
5506 }
5507 }
5508 }
5509}
tripoint_range< tripoint > points_in_rectangle(const tripoint &from, const tripoint &to) const
Definition: map.cpp:8583
bool has_owner() const
Definition: vehicle.h:844
void set_owner(const faction_id &new_owner)
Definition: vehicle.h:831

References abs_sub, vehicle::has_owner(), i_at(), points_in_rectangle(), vehicle::set_owner(), veh_at(), veh_pointer_or_null(), and tripoint::z.

Referenced by jmapgen_faction::apply().

◆ apply_light_arc()

void map::apply_light_arc ( const tripoint p,
units::angle  angle,
float  luminance,
units::angle  wideangle = 30_degrees 
)
private

Definition at line 1551 of file lightmap.cpp.

1553{
1554 if( luminance <= LIGHT_SOURCE_LOCAL ) {
1555 return;
1556 }
1557
1558 bool lit[LIGHTMAP_CACHE_X][LIGHTMAP_CACHE_Y] {};
1559
1561
1562 // Normalize (should work with negative values too)
1563 const units::angle wangle = wideangle / 2.0;
1564
1565 units::angle nangle = fmod( angle, 360_degrees );
1566
1567 tripoint end;
1568 int range = LIGHT_RANGE( luminance );
1569 calc_ray_end( nangle, range, p, end );
1570 apply_light_ray( lit, p, end, luminance );
1571
1572 tripoint test;
1573 calc_ray_end( wangle + nangle, range, p, test );
1574
1575 const float wdist = hypot( end.x - test.x, end.y - test.y );
1576 if( wdist <= 0.5 ) {
1577 return;
1578 }
1579
1580 // attempt to determine beam intensity required to cover all squares
1581 const units::angle wstep = ( wangle / ( wdist * M_SQRT2 ) );
1582
1583 // NOLINTNEXTLINE(clang-analyzer-security.FloatLoopCounter)
1584 for( units::angle ao = wstep; ao <= wangle; ao += wstep ) {
1585 if( trigdist ) {
1586 double fdist = ( ao * M_PI_2 ) / wangle;
1587 end.x = static_cast<int>(
1588 p.x + ( static_cast<double>( range ) - fdist * 2.0 ) * cos( nangle + ao ) );
1589 end.y = static_cast<int>(
1590 p.y + ( static_cast<double>( range ) - fdist * 2.0 ) * sin( nangle + ao ) );
1591 apply_light_ray( lit, p, end, luminance );
1592
1593 end.x = static_cast<int>(
1594 p.x + ( static_cast<double>( range ) - fdist * 2.0 ) * cos( nangle - ao ) );
1595 end.y = static_cast<int>(
1596 p.y + ( static_cast<double>( range ) - fdist * 2.0 ) * sin( nangle - ao ) );
1597 apply_light_ray( lit, p, end, luminance );
1598 } else {
1599 calc_ray_end( nangle + ao, range, p, end );
1600 apply_light_ray( lit, p, end, luminance );
1601 calc_ray_end( nangle - ao, range, p, end );
1602 apply_light_ray( lit, p, end, luminance );
1603 }
1604 }
1605}
bool trigdist
Circular distances.
void apply_light_ray(bool lit[MAPSIZE_X][MAPSIZE_Y], const tripoint &s, const tripoint &e, float luminance)
Definition: lightmap.cpp:1607
static constexpr int LIGHTMAP_CACHE_Y
Definition: lightmap.cpp:48
static constexpr int LIGHTMAP_CACHE_X
Definition: lightmap.cpp:47
static constexpr float LIGHT_SOURCE_LOCAL
Definition: lightmap.h:8
#define LIGHT_RANGE(b)
Definition: lightmap.h:41
void calc_ray_end(units::angle angle, const int range, const tripoint &p, tripoint &out)
Definition: line.cpp:751
#define M_SQRT2
Definition: math_defines.h:29
#define M_PI_2
Definition: math_defines.h:25
quantity< double, angle_in_radians_tag > angle
Definition: units_angle.h:17
double sin(angle a)
Definition: units_angle.h:52
double cos(angle a)
Definition: units_angle.h:57
quantity< V, U > fmod(quantity< V, U > num, quantity< V, U > den)
Definition: units_def.h:142

References apply_light_ray(), apply_light_source(), calc_ray_end(), units::cos(), units::fmod(), LIGHT_RANGE, LIGHT_SOURCE_LOCAL, LIGHTMAP_CACHE_X, LIGHTMAP_CACHE_Y, M_PI_2, M_SQRT2, units::sin(), trigdist, tripoint::x, and tripoint::y.

Referenced by add_light_from_items(), and generate_lightmap().

◆ apply_light_ray()

void map::apply_light_ray ( bool  lit[MAPSIZE_X][MAPSIZE_Y],
const tripoint s,
const tripoint e,
float  luminance 
)
private

Definition at line 1607 of file lightmap.cpp.

1609{
1610 point a( std::abs( e.x - s.x ) * 2, std::abs( e.y - s.y ) * 2 );
1611 point d( ( s.x < e.x ) ? 1 : -1, ( s.y < e.y ) ? 1 : -1 );
1612 point p( s.xy() );
1613
1614 quadrant quad = quadrant_from_x_y( d.x, d.y );
1615
1616 // TODO: Invert that z comparison when it's sane
1617 if( s.z != e.z || ( s.x == e.x && s.y == e.y ) ) {
1618 return;
1619 }
1620
1621 auto &lm = get_cache( s.z ).lm;
1622 auto &transparency_cache = get_cache( s.z ).transparency_cache;
1623
1624 float distance = 1.0;
1625 float transparency = LIGHT_TRANSPARENCY_OPEN_AIR;
1626 const float scaling_factor = static_cast<float>( rl_dist( s, e ) ) /
1627 static_cast<float>( square_dist( s, e ) );
1628 // TODO: [lightmap] Pull out the common code here rather than duplication
1629 if( a.x > a.y ) {
1630 int t = a.y - ( a.x / 2 );
1631 do {
1632 if( t >= 0 ) {
1633 p.y += d.y;
1634 t -= a.x;
1635 }
1636
1637 p.x += d.x;
1638 t += a.y;
1639
1640 // TODO: clamp coordinates to map bounds before this method is called.
1641 if( lightmap_boundaries.contains( p ) ) {
1642 float current_transparency = transparency_cache[p.x][p.y];
1643 bool is_opaque = ( current_transparency == LIGHT_TRANSPARENCY_SOLID );
1644 if( !lit[p.x][p.y] ) {
1645 // Multiple rays will pass through the same squares so we need to record that
1646 lit[p.x][p.y] = true;
1647 float lm_val = luminance / ( fastexp( transparency * distance ) * distance );
1648 quadrant q = is_opaque ? quad : quadrant::default_;
1649 lm[p.x][p.y][q] = std::max( lm[p.x][p.y][q], lm_val );
1650 }
1651 if( is_opaque ) {
1652 break;
1653 }
1654 // Cumulative average of the transparency values encountered.
1655 transparency = ( ( distance - 1.0 ) * transparency + current_transparency ) / distance;
1656 } else {
1657 break;
1658 }
1659
1660 distance += scaling_factor;
1661 } while( !( p.x == e.x && p.y == e.y ) );
1662 } else {
1663 int t = a.x - ( a.y / 2 );
1664 do {
1665 if( t >= 0 ) {
1666 p.x += d.x;
1667 t -= a.y;
1668 }
1669
1670 p.y += d.y;
1671 t += a.x;
1672
1673 if( lightmap_boundaries.contains( p ) ) {
1674 float current_transparency = transparency_cache[p.x][p.y];
1675 bool is_opaque = ( current_transparency == LIGHT_TRANSPARENCY_SOLID );
1676 if( !lit[p.x][p.y] ) {
1677 // Multiple rays will pass through the same squares so we need to record that
1678 lit[p.x][p.y] = true;
1679 float lm_val = luminance / ( fastexp( transparency * distance ) * distance );
1680 quadrant q = is_opaque ? quad : quadrant::default_;
1681 lm[p.x][p.y][q] = std::max( lm[p.x][p.y][q], lm_val );
1682 }
1683 if( is_opaque ) {
1684 break;
1685 }
1686 // Cumulative average of the transparency values encountered.
1687 transparency = ( ( distance - 1.0 ) * transparency + current_transparency ) / distance;
1688 } else {
1689 break;
1690 }
1691
1692 distance += scaling_factor;
1693 } while( !( p.x == e.x && p.y == e.y ) );
1694 }
1695}
int square_dist(const coords::coord_point< Point, Origin, Scale > &loc1, const coords::coord_point< Point, Origin, Scale > &loc2)
Definition: coordinates.h:505
static constexpr quadrant quadrant_from_x_y(int x, int y)
Definition: lightmap.cpp:786
static float fastexp(float x)
Definition: lightmap.cpp:1402
static constexpr float LIGHT_TRANSPARENCY_OPEN_AIR
Definition: lightmap.h:36
quadrant
Definition: shadowcasting.h:22

References a, default_, fastexp(), get_cache(), LIGHT_TRANSPARENCY_OPEN_AIR, LIGHT_TRANSPARENCY_SOLID, lightmap_boundaries, level_cache::lm, quadrant_from_x_y(), rl_dist(), square_dist(), level_cache::transparency_cache, point::x, tripoint::x, tripoint::xy(), point::y, tripoint::y, and tripoint::z.

Referenced by apply_light_arc().

◆ apply_light_source()

void map::apply_light_source ( const tripoint p,
float  luminance 
)
private

Definition at line 1430 of file lightmap.cpp.

1431{
1432 auto &cache = get_cache( p.z );
1433 four_quadrants( &lm )[MAPSIZE_X][MAPSIZE_Y] = cache.lm;
1434 float ( &sm )[MAPSIZE_X][MAPSIZE_Y] = cache.sm;
1435 float ( &transparency_cache )[MAPSIZE_X][MAPSIZE_Y] = cache.transparency_cache;
1436 float ( &light_source_buffer )[MAPSIZE_X][MAPSIZE_Y] = cache.light_source_buffer;
1437 diagonal_blocks( &blocked_cache )[MAPSIZE_X][MAPSIZE_Y] = cache.vehicle_obscured_cache;
1438
1439 const point p2( p.xy() );
1440
1441 if( inbounds( p ) ) {
1442 const float min_light = std::max( static_cast<float>( lit_level::LOW ), luminance );
1443 lm[p2.x][p2.y] = elementwise_max( lm[p2.x][p2.y], min_light );
1444 sm[p2.x][p2.y] = std::max( sm[p2.x][p2.y], luminance );
1445 }
1446 if( luminance <= lit_level::LOW ) {
1447 return;
1448 } else if( luminance <= lit_level::BRIGHT_ONLY ) {
1449 luminance = 1.49f;
1450 }
1451
1452 /* If we're a 5 luminance fire , we skip casting rays into ey && sx if we have
1453 neighboring fires to the north and west that were applied via light_source_buffer
1454 If there's a 1 luminance candle east in buffer, we still cast rays into ex since it's smaller
1455 If there's a 100 luminance magnesium flare south added via apply_light_source instead od
1456 add_light_source, it's unbuffered so we'll still cast rays into sy.
1457
1458 ey
1459 nnnNnnn
1460 w e
1461 w 5 +e
1462 sx W 5*1+E ex
1463 w ++++e
1464 w+++++e
1465 sssSsss
1466 sy
1467 */
1468 const int peer_inbounds = LIGHTMAP_CACHE_X - 1;
1469 bool north = ( p2.y != 0 && light_source_buffer[p2.x][p2.y - 1] < luminance );
1470 bool south = ( p2.y != peer_inbounds && light_source_buffer[p2.x][p2.y + 1] < luminance );
1471 bool east = ( p2.x != peer_inbounds && light_source_buffer[p2.x + 1][p2.y] < luminance );
1472 bool west = ( p2.x != 0 && light_source_buffer[p2.x - 1][p2.y] < luminance );
1473
1474 if( north ) {
1475 castLight < 1, 0, 0, -1, float, four_quadrants, light_calc, light_check,
1477 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1478 castLight < -1, 0, 0, -1, float, four_quadrants, light_calc, light_check,
1480 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1481 }
1482
1483 if( east ) {
1484 castLight < 0, -1, 1, 0, float, four_quadrants, light_calc, light_check,
1486 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1487 castLight < 0, -1, -1, 0, float, four_quadrants, light_calc, light_check,
1489 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1490 }
1491
1492 if( south ) {
1493 castLight<1, 0, 0, 1, float, four_quadrants, light_calc, light_check,
1495 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1496 castLight < -1, 0, 0, 1, float, four_quadrants, light_calc, light_check,
1498 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1499 }
1500
1501 if( west ) {
1502 castLight<0, 1, 1, 0, float, four_quadrants, light_calc, light_check,
1504 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1505 castLight < 0, 1, -1, 0, float, four_quadrants, light_calc, light_check,
1507 lm, transparency_cache, blocked_cache, p2, 0, luminance );
1508 }
1509}
constexpr scale sm
Definition: coordinates.h:31

References accumulate_transparency(), BRIGHT_ONLY, castLight(), get_cache(), inbounds(), light_calc(), light_check(), LIGHTMAP_CACHE_X, LOW, MAPSIZE_X, MAPSIZE_Y, coords::sm, update_light_quadrants(), point::x, tripoint::xy(), point::y, and tripoint::z.

Referenced by apply_character_light(), apply_light_arc(), and generate_lightmap().

◆ bash()

bash_results map::bash ( const tripoint p,
int  str,
bool  silent = false,
bool  destroy = false,
bool  bash_floor = false,
const vehicle bashing_vehicle = nullptr 
)

Returns a pair where first is whether anything was smashed and second is if it was destroyed.

Parameters
pWhere to bash
strHow hard to bash
silentDon't produce any sound
destroyDestroys some otherwise unbashable tiles
bash_floorAllow bashing the floor and the tile that supports it
bashing_vehicleVehicle that should NOT be bashed (because it is doing the bashing)

Definition at line 3508 of file map.cpp.

3511{
3512 bash_params bsh{
3513 str, silent, destroy, bash_floor, static_cast<float>( rng_float( 0, 1.0f ) ), false, true
3514 };
3516 if( !inbounds( p ) ) {
3517 return result;
3518 }
3519
3520 bool bashed_sealed = false;
3521 if( has_flag( "SEALED", p ) ) {
3522 result |= bash_ter_furn( p, bsh );
3523 bashed_sealed = true;
3524 }
3525
3526 result |= bash_field( p, bsh );
3527
3528 // Don't bash items inside terrain/furniture with SEALED flag
3529 if( !bashed_sealed ) {
3530 result |= bash_items( p, bsh );
3531 }
3532 // Don't bash the vehicle doing the bashing
3533 const vehicle *veh = veh_pointer_or_null( veh_at( p ) );
3534 if( veh != nullptr && veh != bashing_vehicle ) {
3535 result |= bash_vehicle( p, bsh );
3536 }
3537
3538 // If we still didn't bash anything solid (a vehicle) or a tile with SEALED flag, bash ter/furn
3539 if( !result.bashed_solid && !bashed_sealed ) {
3540 result |= bash_ter_furn( p, bsh );
3541 }
3542
3543 return result;
3544}
bash_results bash_field(const tripoint &p, const bash_params &params)
Definition: map.cpp:3598
bash_results bash_items(const tripoint &p, const bash_params &params)
Definition: map.cpp:3546
bash_results bash_vehicle(const tripoint &p, const bash_params &params)
Definition: map.cpp:3580
bash_results bash_ter_furn(const tripoint &p, const bash_params &params)
Definition: map.cpp:3384
double rng_float(double lo, double hi)
Definition: rng.cpp:28
@ silent
Definition: weather_type.h:56

References bash_field(), bash_items(), bash_ter_furn(), bash_vehicle(), destroy(), has_flag(), inbounds(), rng_float(), silent, veh_at(), and veh_pointer_or_null().

Referenced by Character::activate_bionic(), jmapgen_setmap::apply(), bash_furn_success(), bash_resistance(), bash_strength(), bash_ter_furn(), bash_ter_success(), batter(), destroy(), destroy_furn(), explosion_handler::do_blast(), drop_furniture(), drop_items(), game::fling_creature(), is_bashable(), game::knockback(), npc::move_to(), vehicle::part_collision(), player::reach_attack(), route(), scatter_chunks(), shoot(), explosion_handler::shrapnel(), mattack::shriek_stun(), smash(), and valid_move().

◆ bash_field()

bash_results map::bash_field ( const tripoint p,
const bash_params params 
)

Definition at line 3598 of file map.cpp.

3599{
3601 if( get_field( p, fd_web ) != nullptr ) {
3602 result.did_bash = true;
3603 result.bashed_solid = true; // To prevent bashing furniture/vehicles
3604 remove_field( p, fd_web );
3605 }
3606
3607 return result;
3608}
void remove_field(const tripoint &p, const field_type_id &field_to_remove)
Remove field entry at xy, ignored if the field entry is not present.
Definition: map.cpp:5445
field_type_id fd_web
Definition: field_type.cpp:340

References fd_web, get_field(), and remove_field().

Referenced by bash().

◆ bash_furn_success()

bash_results map::bash_furn_success ( const tripoint p,
const bash_params params 
)

Definition at line 3288 of file map.cpp.

3289{
3291 const auto &furnid = furn( p ).obj();
3292 const map_bash_info &bash = furnid.bash;
3293
3294
3295 if( has_flag_furn( "FUNGUS", p ) ) {
3296 fungal_effects( *g, *this ).create_spores( p );
3297 }
3298 std::string soundfxvariant = furnid.id.str();
3299 const bool tent = !bash.tent_centers.empty();
3300
3301 // Special code to collapse the tent if destroyed
3302 if( tent ) {
3303 // Get ids of possible centers
3304 std::set<furn_id> centers;
3305 for( const auto &cur_id : bash.tent_centers ) {
3306 if( cur_id.is_valid() ) {
3307 centers.insert( cur_id );
3308 }
3309 }
3310
3312
3313 // Find the center of the tent
3314 // First check if we're not currently bashing the center
3315 if( centers.count( furn( p ) ) > 0 ) {
3316 tentp.emplace( p, furn( p ) );
3317 } else {
3318 for( const tripoint &pt : points_in_radius( p, bash.collapse_radius ) ) {
3319 const furn_id &f_at = furn( pt );
3320 // Check if we found the center of the current tent
3321 if( centers.count( f_at ) > 0 ) {
3322 tentp.emplace( pt, f_at );
3323 break;
3324 }
3325 }
3326 }
3327 // Didn't find any tent center, wreck the current tile
3328 if( !tentp ) {
3330 furn_set( p, bash.furn_set );
3331 } else {
3332 // Take the tent down
3333 const int rad = tentp->second.obj().bash.collapse_radius;
3334 for( const tripoint &pt : points_in_radius( tentp->first, rad ) ) {
3335 const furn_id frn = furn( pt );
3336 if( frn == f_null ) {
3337 continue;
3338 }
3339
3340 const map_bash_info &recur_bash = frn.obj().bash;
3341 // Check if we share a center type and thus a "tent type"
3342 for( const auto &cur_id : recur_bash.tent_centers ) {
3343 if( centers.count( cur_id.id() ) > 0 ) {
3344 // Found same center, wreck current tile
3346 furn_set( pt, recur_bash.furn_set );
3347 break;
3348 }
3349 }
3350 }
3351 }
3352 soundfxvariant = "smash_cloth";
3353 } else {
3354 furn_set( p, bash.furn_set );
3355 for( item &it : i_at( p ) ) {
3356 it.on_drop( p, *this );
3357 }
3358 // HACK: Hack alert.
3359 // Signs have cosmetics associated with them on the submap since
3360 // furniture can't store dynamic data to disk. To prevent writing
3361 // mysteriously appearing for a sign later built here, remove the
3362 // writing from the submap.
3363 delete_signage( p );
3364 }
3365
3366 if( !tent ) {
3368 }
3369
3370 if( !bash.sound.empty() && !params.silent ) {
3371 static const std::string soundfxid = "smash_success";
3372 int sound_volume = get_sound_volume( bash );
3373 sounds::sound( p, sound_volume, sounds::sound_t::combat, bash.sound, false,
3374 soundfxid, soundfxvariant );
3375 }
3376
3377 if( bash.explosive > 0 ) {
3378 explosion_handler::explosion( p, bash.explosive, 0.8, false );
3379 }
3380
3381 return result;
3382}
T & emplace(Args &&... args)
Definition: optional.h:146
void create_spores(const tripoint &p, Creature *origin=nullptr)
Makes spores at p.
bool has_flag_furn(const std::string &flag, const tripoint &p) const
Definition: map.cpp:2314
bash_results bash(const tripoint &p, int str, bool silent=false, bool destroy=false, bool bash_floor=false, const vehicle *bashing_vehicle=nullptr)
Returns a pair where first is whether anything was smashed and second is if it was destroyed.
Definition: map.cpp:3508
std::vector< item * > spawn_items(const tripoint &p, const std::vector< item > &new_items)
Definition: map.cpp:4144
void furn_set(const tripoint &p, const furn_id &new_furniture, cata::poly_serialized< active_tile_data > new_active=nullptr)
Sets the furniture at given position.
Definition: map.cpp:1357
void delete_signage(const tripoint &p) const
Definition: map.cpp:4003
static int get_sound_volume(const map_bash_info &bash)
Definition: map.cpp:3151
furn_id f_null
Definition: mapdata.cpp:1095
void explosion(const tripoint &p, float power, float factor, bool fire, int legacy_casing_mass, float)
Legacy explosion function.
Definition: explosion.cpp:697
ItemList items_from(const item_group_id &group_id, const time_point &birthday)
Create items from the given group.
Definition: item_group.cpp:574
void sound(const tripoint &p, int vol, sound_t category, const std::string &description, bool ambient=false, const std::string &id="", const std::string &variant="default")
Sound at (p) of intensity (vol)
Definition: sounds.cpp:177
bool silent
Definition: map.h:136
std::vector< furn_str_id > tent_centers
Definition: mapdata.h:100
item_group_id drop_group
Definition: mapdata.h:86
furn_str_id furn_set
Definition: mapdata.h:98
map_bash_info bash
Definition: mapdata.h:344

References bash(), map_data_common_t::bash, sounds::combat, fungal_effects::create_spores(), delete_signage(), map_bash_info::drop_group, cata::optional< T >::emplace(), explosion_handler::explosion(), f_null, furn(), furn_set(), map_bash_info::furn_set, g, get_sound_volume(), has_flag_furn(), i_at(), item_group::items_from(), int_id< T >::obj(), points_in_radius(), bash_params::silent, sounds::sound(), spawn_items(), map_bash_info::tent_centers, and calendar::turn.

Referenced by bash_ter_furn().

◆ bash_items()

bash_results map::bash_items ( const tripoint p,
const bash_params params 
)

Definition at line 3546 of file map.cpp.

3547{
3549 if( !has_items( p ) ) {
3550 return result;
3551 }
3552
3553 std::vector<item> smashed_contents;
3554 auto bashed_items = i_at( p );
3555 bool smashed_glass = false;
3556 for( auto bashed_item = bashed_items.begin(); bashed_item != bashed_items.end(); ) {
3557 // the check for active suppresses Molotovs smashing themselves with their own explosion
3558 if( bashed_item->made_of( material_id( "glass" ) ) && !bashed_item->active && one_in( 2 ) ) {
3559 result.did_bash = true;
3560 smashed_glass = true;
3561 for( const item *bashed_content : bashed_item->contents.all_items_top() ) {
3562 smashed_contents.push_back( item( *bashed_content ) );
3563 }
3564 bashed_item = bashed_items.erase( bashed_item );
3565 } else {
3566 ++bashed_item;
3567 }
3568 }
3569 // Now plunk in the contents of the smashed items.
3570 spawn_items( p, smashed_contents );
3571
3572 // Add a glass sound even when something else also breaks
3573 if( smashed_glass && !params.silent ) {
3574 sounds::sound( p, 12, sounds::sound_t::combat, _( "glass shattering" ), false,
3575 "smash_success", "smash_glass_contents" );
3576 }
3577 return result;
3578}
std::list< item * > all_items_top()
returns a list of pointers to all top-level items
item_contents contents
Definition: item.h:2157
bool has_items(const tripoint &p) const
Checks for existence of items.
Definition: map.cpp:4752

References _, item_contents::all_items_top(), sounds::combat, item::contents, has_items(), i_at(), one_in(), bash_params::silent, sounds::sound(), and spawn_items().

Referenced by bash().

◆ bash_rating() [1/2]

int map::bash_rating ( const int  str,
const point p 
) const
inline

Definition at line 1049 of file map.h.

1049 {
1050 return bash_rating( str, tripoint( p, abs_sub.z ) );
1051 }
int bash_rating(int str, const tripoint &p, bool allow_floor=false) const
Returns a success rating from -1 to 10 for a given tile based on a set strength, used for AI movement...
Definition: map.cpp:2474

References abs_sub, bash_rating(), and tripoint::z.

◆ bash_rating() [2/2]

int map::bash_rating ( int  str,
const tripoint p,
bool  allow_floor = false 
) const

Returns a success rating from -1 to 10 for a given tile based on a set strength, used for AI movement planning Values roughly correspond to 10% increment chances of success on a given bash, rounded down.

-1 means the square is not bashable

Definition at line 2474 of file map.cpp.

2475{
2476 if( !inbounds( p ) ) {
2477 dbg( DL::Warn ) << "Looking for out-of-bounds is_bashable at " << p;
2478 return -1;
2479 }
2480
2481 if( str <= 0 ) {
2482 return -1;
2483 }
2484
2485 const furn_t &furniture = furn( p ).obj();
2486 const ter_t &terrain = ter( p ).obj();
2487 const optional_vpart_position vp = veh_at( p );
2488 vehicle *const veh = vp ? &vp->vehicle() : nullptr;
2489 const int part = vp ? vp->part_index() : -1;
2490 return bash_rating_internal( str, furniture, terrain, allow_floor, veh, part );
2491}
int bash_rating_internal(int str, const furn_t &furniture, const ter_t &terrain, bool allow_floor, const vehicle *veh, int part) const
Definition: map.cpp:2366

References bash_rating_internal(), dbg, furn(), furniture, inbounds(), int_id< T >::obj(), ter(), terrain, veh_at(), and Warn.

Referenced by bash_rating(), npc::can_move_to(), monster::move(), and npc::move_to().

◆ bash_rating_internal()

int map::bash_rating_internal ( int  str,
const furn_t furniture,
const ter_t terrain,
bool  allow_floor,
const vehicle veh,
int  part 
) const
private
Strength determines what furniture can be smashed Strength determines what terrain can be smashed Strength increases smashing damage

Definition at line 2366 of file map.cpp.

2369{
2370 bool furn_smash = false;
2371 bool ter_smash = false;
2372 ///\EFFECT_STR determines what furniture can be smashed
2373 if( furniture.id && furniture.bash.str_max != -1 ) {
2374 furn_smash = true;
2375 ///\EFFECT_STR determines what terrain can be smashed
2376 } else if( terrain.bash.str_max != -1 && ( !terrain.bash.bash_below || allow_floor ) ) {
2377 ter_smash = true;
2378 }
2379
2380 if( veh != nullptr && vpart_position( const_cast<vehicle &>( *veh ), part ).obstacle_at_part() ) {
2381 // Monsters only care about rating > 0, NPCs should want to path around cars instead
2382 return 2; // Should probably be a function of part hp (+armor on tile)
2383 }
2384
2385 int bash_min = 0;
2386 int bash_max = 0;
2387 if( furn_smash ) {
2388 bash_min = furniture.bash.str_min;
2389 bash_max = furniture.bash.str_max;
2390 } else if( ter_smash ) {
2391 bash_min = terrain.bash.str_min;
2392 bash_max = terrain.bash.str_max;
2393 } else {
2394 return -1;
2395 }
2396
2397 ///\EFFECT_STR increases smashing damage
2398 if( str < bash_min ) {
2399 return 0;
2400 } else if( str >= bash_max ) {
2401 return 10;
2402 }
2403
2404 int ret = ( 10 * ( str - bash_min ) ) / ( bash_max - bash_min );
2405 // Round up to 1, so that desperate NPCs can try to bash down walls
2406 return std::max( ret, 1 );
2407}
Reference to a position (a point) of the vehicle.

References furniture, cata::hash64_detail::ret, and terrain.

Referenced by bash_rating(), and route().

◆ bash_resistance() [1/2]

int map::bash_resistance ( const point p) const
inline

Definition at line 1043 of file map.h.

1043 {
1044 return bash_resistance( tripoint( p, abs_sub.z ) );
1045 }
int bash_resistance(const tripoint &p, bool allow_floor=false) const
Returns min_str of the furniture or terrain at p.
Definition: map.cpp:2460

References abs_sub, bash_resistance(), and tripoint::z.

◆ bash_resistance() [2/2]

int map::bash_resistance ( const tripoint p,
bool  allow_floor = false 
) const

Returns min_str of the furniture or terrain at p.

Definition at line 2460 of file map.cpp.

2461{
2462 if( has_furn( p ) && furn( p ).obj().bash.str_min != -1 ) {
2463 return furn( p ).obj().bash.str_min;
2464 }
2465
2466 const auto &ter_bash = ter( p ).obj().bash;
2467 if( ter_bash.str_min != -1 && ( !ter_bash.bash_below || allow_floor ) ) {
2468 return ter_bash.str_min;
2469 }
2470
2471 return -1;
2472}
bool has_furn(const tripoint &p) const
Definition: map.cpp:1340
int str_min
Definition: mapdata.h:62

References bash(), map_data_common_t::bash, furn(), has_furn(), int_id< T >::obj(), map_bash_info::str_min, and ter().

Referenced by bash_resistance(), ranged::expected_coverage(), vehicle::part_collision(), rate_location(), smash(), and terrain_collision_data().

◆ bash_strength() [1/2]

int map::bash_strength ( const point p) const
inline

Definition at line 1038 of file map.h.

1038 {
1039 return bash_strength( tripoint( p, abs_sub.z ) );
1040 }
int bash_strength(const tripoint &p, bool allow_floor=false) const
Returns max_str of the furniture or terrain at p.
Definition: map.cpp:2446

References abs_sub, bash_strength(), and tripoint::z.

◆ bash_strength() [2/2]

int map::bash_strength ( const tripoint p,
bool  allow_floor = false 
) const

Returns max_str of the furniture or terrain at p.

Definition at line 2446 of file map.cpp.

2447{
2448 if( has_furn( p ) && furn( p ).obj().bash.str_max != -1 ) {
2449 return furn( p ).obj().bash.str_max;
2450 }
2451
2452 const auto &ter_bash = ter( p ).obj().bash;
2453 if( ter_bash.str_max != -1 && ( !ter_bash.bash_below || allow_floor ) ) {
2454 return ter_bash.str_max;
2455 }
2456
2457 return -1;
2458}
int str_max
Definition: mapdata.h:64

References bash(), map_data_common_t::bash, furn(), has_furn(), int_id< T >::obj(), map_bash_info::str_max, and ter().

Referenced by bash_strength(), ranged::expected_coverage(), game::fling_creature(), and terrain_collision_data().

◆ bash_ter_furn()

bash_results map::bash_ter_furn ( const tripoint p,
const bash_params params 
)

Definition at line 3384 of file map.cpp.

3385{
3387 std::string soundfxvariant;
3388 const auto &ter_obj = ter( p ).obj();
3389 const auto &furn_obj = furn( p ).obj();
3390 bool smash_ter = false;
3391 const map_bash_info *bash = nullptr;
3392
3393 if( furn_obj.id && furn_obj.bash.str_max != -1 ) {
3394 bash = &furn_obj.bash;
3395 soundfxvariant = furn_obj.id.str();
3396 } else if( ter_obj.bash.str_max != -1 ) {
3397 bash = &ter_obj.bash;
3398 smash_ter = true;
3399 soundfxvariant = ter_obj.id.str();
3400 }
3401
3402 // Floor bashing check
3403 // Only allow bashing floors when we want to bash floors and we're in z-level mode
3404 // Unless we're destroying, then it gets a little weird
3405 if( smash_ter && bash->bash_below && ( !zlevels || !params.bash_floor ) ) {
3406 if( !params.destroy ) {
3407 smash_ter = false;
3408 bash = nullptr;
3409 } else if( !bash->ter_set && zlevels ) {
3410 // HACK: A hack for destroy && !bash_floor
3411 // We have to check what would we create and cancel if it is what we have now
3412 tripoint below( p.xy(), p.z - 1 );
3413 const auto roof = get_roof( below, false );
3414 if( roof == ter( p ) ) {
3415 smash_ter = false;
3416 bash = nullptr;
3417 }
3418 } else if( !bash->ter_set && ter( p ) == t_dirt ) {
3419 // As above, except for no-z-levels case
3420 smash_ter = false;
3421 bash = nullptr;
3422 }
3423 }
3424
3425 // TODO: what if silent is true?
3426 if( has_flag( "ALARMED", p ) && !g->timed_events.queued( TIMED_EVENT_WANTED ) ) {
3427 sounds::sound( p, 40, sounds::sound_t::alarm, _( "an alarm go off!" ),
3428 false, "environment", "alarm" );
3429 // Blame nearby player
3430 if( rl_dist( g->u.pos(), p ) <= 3 ) {
3431 g->events().send<event_type::triggers_alarm>( g->u.getID() );
3432 const point abs = ms_to_sm_copy( getabs( p.xy() ) );
3433 g->timed_events.add( TIMED_EVENT_WANTED, calendar::turn + 30_minutes, 0,
3434 tripoint( abs, p.z ) );
3435 }
3436 }
3437
3438 if( bash == nullptr || ( bash->destroy_only && !params.destroy ) ) {
3439 // Nothing bashable here
3440 if( impassable( p ) ) {
3441 if( !params.silent ) {
3442 sounds::sound( p, 18, sounds::sound_t::combat, _( "thump!" ),
3443 false, "smash_fail", "default" );
3444 }
3445
3446 result.did_bash = true;
3447 result.bashed_solid = true;
3448 }
3449
3450 return result;
3451 }
3452
3453 result.did_bash = true;
3454 result.bashed_solid = true;
3455 result.success = params.destroy;
3456
3457 int smin = bash->str_min;
3458 int smax = bash->str_max;
3459 if( !params.destroy ) {
3460 if( bash->str_min_blocked != -1 || bash->str_max_blocked != -1 ) {
3461 if( furn_is_supported( *this, p ) ) {
3462 if( bash->str_min_blocked != -1 ) {
3463 smin = bash->str_min_blocked;
3464 }
3465 if( bash->str_max_blocked != -1 ) {
3466 smax = bash->str_max_blocked;
3467 }
3468 }
3469 }
3470
3471 if( bash->str_min_supported != -1 || bash->str_max_supported != -1 ) {
3472 tripoint below( p.xy(), p.z - 1 );
3473 if( !zlevels || has_flag( TFLAG_SUPPORTS_ROOF, below ) ) {
3474 if( bash->str_min_supported != -1 ) {
3475 smin = bash->str_min_supported;
3476 }
3477 if( bash->str_max_supported != -1 ) {
3478 smax = bash->str_max_supported;
3479 }
3480 }
3481 }
3482 // Linear interpolation from str_min to str_max
3483 const int resistance = smin + ( params.roll * ( smax - smin ) );
3484 if( params.strength >= resistance ) {
3485 result.success = true;
3486 }
3487 }
3488
3489 if( !result.success ) {
3490 int sound_volume = bash->sound_fail_vol.value_or( 12 );
3491
3492 result.did_bash = true;
3493 if( !params.silent ) {
3494 sounds::sound( p, sound_volume, sounds::sound_t::combat, bash->sound_fail, false,
3495 "smash_fail", soundfxvariant );
3496 }
3497 } else {
3498 if( smash_ter ) {
3499 result |= bash_ter_success( p, params );
3500 } else {
3501 result |= bash_furn_success( p, params );
3502 }
3503 }
3504
3505 return result;
3506}
ter_id get_roof(const tripoint &p, bool allow_air) const
Definition: map.cpp:3091
bash_results bash_furn_success(const tripoint &p, const bash_params &params)
Definition: map.cpp:3288
bash_results bash_ter_success(const tripoint &p, const bash_params &params)
Definition: map.cpp:3159
point ms_to_sm_copy(const point &p)
static bool furn_is_supported(const map &m, const tripoint &p)
Definition: map.cpp:3135
ter_id t_dirt
Definition: mapdata.cpp:625
@ TFLAG_SUPPORTS_ROOF
Definition: mapdata.h:280
float roll
Value from 0.0 to 1.0 that affects interpolation between str_min and str_max At 0....
Definition: map.h:147
bool bash_floor
Definition: map.h:140
bool destroy
Definition: map.h:138
int strength
Definition: map.h:134
@ TIMED_EVENT_WANTED
Definition: timed_event.h:13

References _, sounds::alarm, bash(), bash_params::bash_floor, bash_furn_success(), bash_ter_success(), sounds::combat, bash_params::destroy, furn(), furn_is_supported(), g, get_roof(), getabs(), has_flag(), impassable(), ms_to_sm_copy(), int_id< T >::obj(), rl_dist(), bash_params::roll, bash_params::silent, sounds::sound(), bash_params::strength, t_dirt, ter(), TFLAG_SUPPORTS_ROOF, TIMED_EVENT_WANTED, triggers_alarm, calendar::turn, tripoint::xy(), tripoint::z, and zlevels.

Referenced by bash(), bash_ter_success(), and explosion_handler::do_blast_new().

◆ bash_ter_success()

bash_results map::bash_ter_success ( const tripoint p,
const bash_params params 
)

Definition at line 3159 of file map.cpp.

3160{
3162 result.success = true;
3163 const ter_t &ter_before = ter( p ).obj();
3164 const map_bash_info &bash = ter_before.bash;
3165 if( has_flag_ter( "FUNGUS", p ) ) {
3166 fungal_effects( *g, *this ).create_spores( p );
3167 }
3168 const std::string soundfxvariant = ter_before.id.str();
3169 const bool will_collapse = ter_before.has_flag( TFLAG_SUPPORTS_ROOF ) &&
3170 !ter_before.has_flag( TFLAG_INDOORS );
3171 const bool suspended = ter_before.has_flag( TFLAG_SUSPENDED );
3172 bool follow_below = false;
3173 if( params.bashing_from_above && bash.ter_set_bashed_from_above ) {
3174 // If this terrain is being bashed from above and this terrain
3175 // has a valid post-destroy bashed-from-above terrain, set it
3176 ter_set( p, bash.ter_set_bashed_from_above );
3177 } else if( bash.ter_set ) {
3178 // If the terrain has a valid post-destroy terrain, set it
3179 ter_set( p, bash.ter_set );
3180 follow_below |= zlevels && bash.bash_below;
3181 } else if( suspended ) {
3182 // Its important that we change the ter value before recursing, otherwise we'll hit an infinite loop.
3183 // This could be prevented by assembling a visited list, but in order to avoid that cost, we're going
3184 // build our recursion to just be resilient.
3185 ter_set( p, t_open_air );
3187 } else {
3188 tripoint below( p.xy(), p.z - 1 );
3189 const ter_t &ter_below = ter( below ).obj();
3190 // Only setting the flag here because we want drops and sounds in correct order
3191 follow_below |= zlevels && bash.bash_below && ter_below.roof;
3192
3193 ter_set( p, t_open_air );
3194 }
3195
3197
3198 if( !bash.sound.empty() && !params.silent ) {
3199 static const std::string soundfxid = "smash_success";
3200 int sound_volume = get_sound_volume( bash );
3201 sounds::sound( p, sound_volume, sounds::sound_t::combat, bash.sound, false,
3202 soundfxid, soundfxvariant );
3203 }
3204
3205 if( !zlevels ) {
3206 if( ter( p ) == t_open_air ) {
3207 // We destroyed something, so we aren't just "plugging" air with dirt here
3208 ter_set( p, t_dirt );
3209 }
3210 } else if( follow_below || ter( p ) == t_open_air ) {
3211 const tripoint below( p.xy(), p.z - 1 );
3212 // We may need multiple bashes in some weird cases
3213 // Example:
3214 // W has roof A
3215 // A bashes to B
3216 // B bashes to nothing
3217 // Below our point P, there is a W
3218 // If we bash down a B over a W, it might be from earlier A or just constructed over it!
3219 //
3220 // Current solution: bash roof until you reach same roof type twice, then bash down
3221 if( follow_below && params.do_recurse ) {
3222 bool blocked_by_roof = false;
3223 std::set<ter_id> encountered_types;
3224 encountered_types.insert( ter_before.id );
3225 encountered_types.insert( t_open_air );
3226 // Note: we're bashing the new roof, not the tile supported by it!
3227 int down_bash_tries = 10;
3228 do {
3229 const ter_id &ter_now = ter( p );
3230 if( encountered_types.count( ter_now ) != 0 ) {
3231 // We have encountered this type before and destroyed it (didn't block us)
3232 ter_set( p, t_open_air );
3233 bash_params params_below = params;
3234 params_below.bashing_from_above = true;
3235 params_below.bash_floor = false;
3236 params_below.do_recurse = false;
3237 params_below.destroy = true;
3238 int impassable_bash_tries = 10;
3239 // Unconditionally destroy, but don't go deeper
3240 do {
3241 result |= bash_ter_success( below, params_below );
3242 } while( ter( below )->movecost == 0 && impassable_bash_tries-- > 0 );
3243 if( impassable_bash_tries <= 0 ) {
3244 debugmsg( "Loop in terrain bashing for type %s", ter_before.id.str() );
3245 }
3246 } else if( ter_now == t_open_air ) {
3247 const ter_id &roof = get_roof( below, params.bash_floor && ter( below )->movecost != 0 );
3248 if( roof != t_open_air ) {
3249 ter_set( p, roof );
3250 }
3251 } else {
3252 // This floor/roof tile wasn't destroyed in this loop yet
3253 encountered_types.insert( ter_now );
3254 bash_params params_copy = params;
3255 params_copy.do_recurse = false;
3256 // TODO: Unwrap the calls, don't recurse
3257 // TODO: Don't bash furn
3258 bash_results results_sub = bash_ter_furn( p, params_copy );
3259 result |= results_sub;
3260 if( !results_sub.success ) {
3261 // Blocked, as in "the roof was too strong to bash"
3262 blocked_by_roof = true;
3263 }
3264 }
3265 } while( down_bash_tries-- > 0 && !blocked_by_roof &&
3266 ( ter( p ) != t_open_air || ter( p )->movecost == 0 || ter( below )->roof ) );
3267 if( down_bash_tries <= 0 ) {
3268 debugmsg( "Loop in terrain bashing for type %s", ter_before.id.str() );
3269 }
3270 } else {
3271 const ter_id &roof = get_roof( below, params.bash_floor && ter( below )->movecost != 0 );
3272
3273 ter_set( p, roof );
3274 }
3275 }
3276
3277 if( will_collapse && !has_flag( TFLAG_SUPPORTS_ROOF, p ) ) {
3278 collapse_at( p, params.silent, true, bash.explosive > 0 );
3279 }
3280
3281 if( bash.explosive > 0 ) {
3282 explosion_handler::explosion( p, bash.explosive, 0.8, false );
3283 }
3284
3285 return result;
3286}
void propagate_suspension_check(const tripoint &point)
Checks surrounding tiles for suspension, and has them check for collapse.
Definition: map.cpp:2940
void collapse_at(const tripoint &p, bool silent, bool was_supporting=false, bool destroy_pos=true)
Causes a collapse at p, such as from destroying a wall.
Definition: map.cpp:2895
const std::string & str() const
Returns the identifier as plain std::string.
Definition: string_id.h:255
@ TFLAG_SUSPENDED
Definition: mapdata.h:323
@ TFLAG_INDOORS
Definition: mapdata.h:291
bool do_recurse
Hack to prevent infinite recursion.
Definition: map.h:159
bool bashing_from_above
Definition: map.h:154
bool success
Definition: map.h:170
bool has_flag(const std::string &flag) const
Definition: mapdata.h:415
ter_str_id id
Definition: mapdata.h:461

References bash(), map_data_common_t::bash, bash_params::bash_floor, bash_ter_furn(), bash_ter_success(), bash_params::bashing_from_above, collapse_at(), sounds::combat, fungal_effects::create_spores(), debugmsg, bash_params::destroy, bash_params::do_recurse, explosion_handler::explosion(), g, get_roof(), get_sound_volume(), map_data_common_t::has_flag(), has_flag(), has_flag_ter(), ter_t::id, item_group::items_from(), int_id< T >::obj(), propagate_suspension_check(), ter_t::roof, bash_params::silent, sounds::sound(), spawn_items(), string_id< T >::str(), bash_results::success, t_dirt, t_open_air, ter(), ter_set(), TFLAG_INDOORS, TFLAG_SUPPORTS_ROOF, TFLAG_SUSPENDED, calendar::turn, tripoint::xy(), tripoint::z, and zlevels.

Referenced by bash_ter_furn(), bash_ter_success(), and shoot().

◆ bash_vehicle()

bash_results map::bash_vehicle ( const tripoint p,
const bash_params params 
)

Definition at line 3580 of file map.cpp.

3581{
3583 // Smash vehicle if present
3584 if( const optional_vpart_position vp = veh_at( p ) ) {
3585 vp->vehicle().damage( vp->part_index(), params.strength, DT_BASH );
3586 if( !params.silent ) {
3587 sounds::sound( p, 18, sounds::sound_t::combat, _( "crash!" ), false,
3588 "smash_success", "hit_vehicle" );
3589 }
3590
3591 result.did_bash = true;
3592 result.success = true;
3593 result.bashed_solid = true;
3594 }
3595 return result;
3596}
@ DT_BASH
Definition: damage.h:24

References _, sounds::combat, DT_BASH, bash_params::silent, sounds::sound(), bash_params::strength, and veh_at().

Referenced by bash().

◆ batter()

void map::batter ( const tripoint p,
int  power,
int  tries = 1,
bool  silent = false 
)

bash a square for a set number of times at set power.

Does not destroy

Definition at line 3645 of file map.cpp.

3646{
3647 int count = 0;
3648 while( count < tries && bash( p, power, silent ).success ) {
3649 count++;
3650 }
3651}
@ success
Definition: behavior.h:20

References bash(), detail::count(), silent, and behavior::success.

Referenced by activity_handlers::chop_tree_finish().

◆ board_vehicle()

void map::board_vehicle ( const tripoint p,
player pl 
)

Definition at line 1046 of file map.cpp.

1047{
1048 if( p == nullptr ) {
1049 debugmsg( "map::board_vehicle: null player" );
1050 return;
1051 }
1052
1054 true );
1055 if( !vp ) {
1056 if( p->grab_point.x == 0 && p->grab_point.y == 0 ) {
1057 debugmsg( "map::board_vehicle: vehicle not found" );
1058 }
1059 return;
1060 }
1061 if( vp->part().has_flag( vehicle_part::passenger_flag ) ) {
1062 player *psg = vp->vehicle().get_passenger( vp->part_index() );
1063 debugmsg( "map::board_vehicle: passenger (%s) is already there",
1064 psg ? psg->name : "<null>" );
1065 unboard_vehicle( pos );
1066 }
1067 vp->part().set_flag( vehicle_part::passenger_flag );
1068 vp->part().passenger_id = p->getID();
1069 vp->vehicle().invalidate_mass();
1070
1071 p->setpos( pos );
1072 p->in_vehicle = true;
1073 if( p->is_avatar() ) {
1074 g->update_map( g->u );
1075 }
1076}
std::string name
Definition: character.h:1504
void unboard_vehicle(const vpart_reference &, Character *passenger, bool dead_passenger=false)
Definition: map.cpp:1078
cata::optional< vpart_reference > part_with_feature(const std::string &f, bool unbroken) const
Definition: vehicle.cpp:2481
Definition: player.h:90
@ passenger_flag
Definition: vehicle.h:192
@ VPFLAG_BOARDABLE
Definition: veh_type.h:39

References debugmsg, g, Character::getID(), player::grab_point, Character::in_vehicle, Creature::is_avatar(), Character::name, optional_vpart_position::part_with_feature(), vehicle_part::passenger_flag, wrapped_vehicle::pos, Character::setpos(), unboard_vehicle(), veh_at(), VPFLAG_BOARDABLE, tripoint::x, and tripoint::y.

Referenced by debug_menu::debug(), npc::move_to(), game::phasing_move(), game::place_player(), game::swap_critters(), and avatar_action::swim().

◆ build_floor_cache()

bool map::build_floor_cache ( int  zlev)

Definition at line 7989 of file map.cpp.

7990{
7991 auto &ch = get_cache( zlev );
7992 if( !ch.floor_cache_dirty ) {
7993 return false;
7994 }
7995
7996 auto &floor_cache = ch.floor_cache;
7997 std::uninitialized_fill_n(
7998 &floor_cache[0][0], ( MAPSIZE_X ) * ( MAPSIZE_Y ), true );
7999
8000 bool lowest_z_lev = zlev <= -OVERMAP_DEPTH;
8001 for( int smx = 0; smx < my_MAPSIZE; ++smx ) {
8002 for( int smy = 0; smy < my_MAPSIZE; ++smy ) {
8003 const submap *cur_submap = get_submap_at_grid( { smx, smy, zlev } );
8004 const submap *below_submap = !lowest_z_lev ? get_submap_at_grid( { smx, smy, zlev - 1 } ) : nullptr;
8005
8006 if( cur_submap == nullptr ) {
8007 debugmsg( "Tried to build floor cache at (%d,%d,%d) but the submap is not loaded", smx, smy, zlev );
8008 continue;
8009 }
8010 if( !lowest_z_lev && below_submap == nullptr ) {
8011 debugmsg( "Tried to build floor cache at (%d,%d,%d) but the submap is not loaded", smx, smy,
8012 zlev - 1 );
8013 continue;
8014 }
8015
8016 for( int sx = 0; sx < SEEX; ++sx ) {
8017 for( int sy = 0; sy < SEEY; ++sy ) {
8018 point sp( sx, sy );
8019 const ter_t &terrain = cur_submap->get_ter( sp ).obj();
8020 if( terrain.has_flag( TFLAG_NO_FLOOR ) ) {
8021 if( below_submap && ( below_submap->get_furn( sp ).obj().has_flag( TFLAG_SUN_ROOF_ABOVE ) ) ) {
8022 continue;
8023 }
8024 const int x = sx + smx * SEEX;
8025 const int y = sy + smy * SEEY;
8026 floor_cache[x][y] = false;
8027 }
8028 }
8029 }
8030 }
8031 }
8032
8033 ch.floor_cache_dirty = false;
8034 return zlevels;
8035}
@ TFLAG_SUN_ROOF_ABOVE
Definition: mapdata.h:322
@ TFLAG_NO_FLOOR
Definition: mapdata.h:310
static const int sx[4]
Definition: tileray.cpp:10
static const int sy[4]
Definition: tileray.cpp:11

References debugmsg, get_cache(), get_submap_at_grid(), submap::get_ter(), MAPSIZE_X, MAPSIZE_Y, my_MAPSIZE, int_id< T >::obj(), OVERMAP_DEPTH, SEEX, SEEY, sx, sy, terrain, TFLAG_NO_FLOOR, TFLAG_SUN_ROOF_ABOVE, and zlevels.

Referenced by build_floor_caches(), and build_map_cache().

◆ build_floor_caches()

void map::build_floor_caches ( )

Definition at line 8037 of file map.cpp.

8038{
8039 const int minz = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
8040 const int maxz = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
8041 for( int z = minz; z <= maxz; z++ ) {
8042 build_floor_cache( z );
8043 }
8044}
bool build_floor_cache(int zlev)
Definition: map.cpp:7989

References abs_sub, build_floor_cache(), OVERMAP_DEPTH, OVERMAP_HEIGHT, tripoint::z, and zlevels.

Referenced by game::do_turn().

◆ build_map_cache()

void map::build_map_cache ( int  zlev,
bool  skip_lightmap = false 
)

Definition at line 8203 of file map.cpp.

8204{
8205 const int minz = zlevels ? -OVERMAP_DEPTH : zlev;
8206 const int maxz = zlevels ? OVERMAP_HEIGHT : zlev;
8207 bool seen_cache_dirty = false;
8208 for( int z = minz; z <= maxz; z++ ) {
8209 // trigger FOV recalculation only when there is a change on the player's level or if fov_3d is enabled
8210 const bool affects_seen_cache = z == zlev || fov_3d;
8214 seen_cache_dirty |= ( build_floor_cache( z ) && affects_seen_cache );
8215 seen_cache_dirty |= get_cache( z ).seen_cache_dirty && affects_seen_cache;
8216 diagonal_blocks fill = {false, false};
8217 std::uninitialized_fill_n( &( get_cache( z ).vehicle_obscured_cache[0][0] ), MAPSIZE_X * MAPSIZE_Y,
8218 fill );
8219 std::uninitialized_fill_n( &( get_cache( z ).vehicle_obstructed_cache[0][0] ),
8221 }
8222 // needs a separate pass as it changes the caches on neighbour z-levels (e.g. floor_cache);
8223 // otherwise such changes might be overwritten by main cache-building logic
8224 for( int z = minz; z <= maxz; z++ ) {
8225 do_vehicle_caching( z );
8226 }
8227 for( int z = minz; z <= maxz; z++ ) {
8228 seen_cache_dirty |= build_vision_transparency_cache( z );
8229 }
8230
8231 if( seen_cache_dirty ) {
8232 skew_vision_cache.clear();
8233 }
8234 // Initial value is illegal player position.
8235 const tripoint &p = g->u.pos();
8236 static tripoint player_prev_pos;
8237 if( seen_cache_dirty || player_prev_pos != p ) {
8238 build_seen_cache( p, zlev );
8239 player_prev_pos = p;
8240 }
8241 if( !skip_lightmap ) {
8242 generate_lightmap( zlev );
8243 }
8244}
bool fov_3d
3D FoV enabled/disabled.
void build_outside_cache(int zlev)
Definition: map.cpp:7882
void update_suspension_cache(const int &z)
Definition: map.cpp:8046
void do_vehicle_caching(int z)
Definition: map.cpp:8186
void build_seen_cache(const tripoint &origin, int target_z)
Calculates the Field Of View for the provided map from the given x, y coordinates.
Definition: lightmap.cpp:1292
lru_cache< point, char > skew_vision_cache
Cache of coordinate pairs recently checked for visibility.
Definition: map.h:2018
bool build_transparency_cache(int zlev)
Definition: lightmap.cpp:81
void generate_lightmap(int zlev)
Definition: lightmap.cpp:371
bool build_vision_transparency_cache(int zlev)
Definition: lightmap.cpp:167
FMT_NOINLINE OutputIt fill(OutputIt it, size_t n, const fill_t< Char > &fill)
bool seen_cache_dirty
Definition: map.h:309

References build_floor_cache(), build_outside_cache(), build_seen_cache(), build_transparency_cache(), build_vision_transparency_cache(), do_vehicle_caching(), detail::fill(), fov_3d, g, generate_lightmap(), get_cache(), MAPSIZE_X, MAPSIZE_Y, OVERMAP_DEPTH, OVERMAP_HEIGHT, level_cache::seen_cache_dirty, skew_vision_cache, update_suspension_cache(), and zlevels.

Referenced by game::do_turn(), game::draw(), game::look_around(), start_location::place_player(), game::start_game(), and game::update_map().

◆ build_obstacle_cache()

void map::build_obstacle_cache ( const tripoint start,
const tripoint end,
float(&)  obstacle_cache[MAPSIZE_X][MAPSIZE_Y] 
)

Definition at line 7936 of file map.cpp.

7938{
7939 const point min_submap{ std::max( 0, start.x / SEEX ), std::max( 0, start.y / SEEY ) };
7940 const point max_submap{
7941 std::min( my_MAPSIZE - 1, end.x / SEEX ), std::min( my_MAPSIZE - 1, end.y / SEEY ) };
7942 // Find and cache all the map obstacles.
7943 // For now setting obstacles to be extremely dense and fill their squares.
7944 // In future, scale effective obstacle density by the thickness of the obstacle.
7945 // Also consider modelling partial obstacles.
7946 // TODO: Support z-levels.
7947 for( int smx = min_submap.x; smx <= max_submap.x; ++smx ) {
7948 for( int smy = min_submap.y; smy <= max_submap.y; ++smy ) {
7949 const auto cur_submap = get_submap_at_grid( { smx, smy, start.z } );
7950
7951 // TODO: Init indices to prevent iterating over unused submap sections.
7952 for( int sx = 0; sx < SEEX; ++sx ) {
7953 for( int sy = 0; sy < SEEY; ++sy ) {
7954 const point sp( sx, sy );
7955 int ter_move = cur_submap->get_ter( sp ).obj().movecost;
7956 int furn_move = cur_submap->get_furn( sp ).obj().movecost;
7957 const int x = sx + smx * SEEX;
7958 const int y = sy + smy * SEEY;
7959 if( ter_move == 0 || furn_move < 0 || ter_move + furn_move == 0 ) {
7960 obstacle_cache[x][y] = 1000.0f;
7961 } else {
7962 obstacle_cache[x][y] = 0.0f;
7963 }
7964 }
7965 }
7966 }
7967 }
7968 VehicleList vehs = get_vehicles( start, end );
7969 const inclusive_cuboid<tripoint> bounds( start, end );
7970 // Cache all the vehicle stuff in one loop
7971 for( auto &v : vehs ) {
7972 for( const vpart_reference &vp : v.v->get_all_parts() ) {
7973 tripoint p = v.pos + vp.part().precalc[0];
7974 if( p.z != start.z ) {
7975 break;
7976 }
7977 if( !bounds.contains( p ) ) {
7978 continue;
7979 }
7980
7981 if( vp.obstacle_at_part() ) {
7982 obstacle_cache[p.x][p.y] = 1000.0f;
7983 }
7984 }
7985 }
7986
7987}
VehicleList get_vehicles()
Definition: map.cpp:235
std::vector< wrapped_vehicle > VehicleList
Definition: map.h:85

References inclusive_cuboid< Tripoint, >::contains(), get_submap_at_grid(), get_vehicles(), my_MAPSIZE, SEEX, SEEY, sx, sy, tripoint::x, tripoint::y, and tripoint::z.

Referenced by explosion_handler::shrapnel().

◆ build_outside_cache()

void map::build_outside_cache ( int  zlev)

Definition at line 7882 of file map.cpp.

7883{
7884 auto &ch = get_cache( zlev );
7885 if( !ch.outside_cache_dirty ) {
7886 return;
7887 }
7888
7889 // Make a bigger cache to avoid bounds checking
7890 // We will later copy it to our regular cache
7891 const size_t padded_w = ( MAPSIZE_X ) + 2;
7892 const size_t padded_h = ( MAPSIZE_Y ) + 2;
7893 bool padded_cache[padded_w][padded_h];
7894
7895 auto &outside_cache = ch.outside_cache;
7896 if( zlev < 0 ) {
7897 std::uninitialized_fill_n(
7898 &outside_cache[0][0], ( MAPSIZE_X ) * ( MAPSIZE_Y ), false );
7899 return;
7900 }
7901
7902 std::uninitialized_fill_n(
7903 &padded_cache[0][0], padded_w * padded_h, true );
7904
7905 for( int smx = 0; smx < my_MAPSIZE; ++smx ) {
7906 for( int smy = 0; smy < my_MAPSIZE; ++smy ) {
7907 const auto cur_submap = get_submap_at_grid( { smx, smy, zlev } );
7908
7909 for( int sx = 0; sx < SEEX; ++sx ) {
7910 for( int sy = 0; sy < SEEY; ++sy ) {
7911 point sp( sx, sy );
7912 if( cur_submap->get_ter( sp ).obj().has_flag( TFLAG_INDOORS ) ||
7913 cur_submap->get_furn( sp ).obj().has_flag( TFLAG_INDOORS ) ) {
7914 const int x = sx + smx * SEEX;
7915 const int y = sy + smy * SEEY;
7916 // Add 1 to both coordinates, because we're operating on the padded cache
7917 for( int dx = 0; dx <= 2; dx++ ) {
7918 for( int dy = 0; dy <= 2; dy++ ) {
7919 padded_cache[x + dx][y + dy] = false;
7920 }
7921 }
7922 }
7923 }
7924 }
7925 }
7926 }
7927
7928 // Copy the padded cache back to the proper one, but with no padding
7929 for( int x = 0; x < SEEX * my_MAPSIZE; x++ ) {
7930 std::copy_n( &padded_cache[x + 1][1], SEEX * my_MAPSIZE, &outside_cache[x][0] );
7931 }
7932
7933 ch.outside_cache_dirty = false;
7934}

References get_cache(), get_submap_at_grid(), MAPSIZE_X, MAPSIZE_Y, my_MAPSIZE, SEEX, SEEY, sx, sy, and TFLAG_INDOORS.

Referenced by build_map_cache(), start_location::burn(), and start_location::prepare_map().

◆ build_seen_cache()

void map::build_seen_cache ( const tripoint origin,
int  target_z 
)
protected

Calculates the Field Of View for the provided map from the given x, y coordinates.

Returns a lightmap for a result where the values represent a percentage of fully lit.

A value equal to or below 0 means that cell is not in the field of view, whereas a value equal to or above 1 means that cell is in the field of view.

Parameters
originthe starting location
target_zZ-level to draw light map on

Definition at line 1292 of file lightmap.cpp.

1293{
1294 auto &map_cache = get_cache( target_z );
1295 float ( &transparency_cache )[MAPSIZE_X][MAPSIZE_Y] = map_cache.vision_transparency_cache;
1296 float ( &seen_cache )[MAPSIZE_X][MAPSIZE_Y] = map_cache.seen_cache;
1297 float ( &camera_cache )[MAPSIZE_X][MAPSIZE_Y] = map_cache.camera_cache;
1298 diagonal_blocks( &blocked_cache )[MAPSIZE_X][MAPSIZE_Y] = map_cache.vehicle_obscured_cache;
1299
1300 constexpr float light_transparency_solid = LIGHT_TRANSPARENCY_SOLID;
1301 constexpr int map_dimensions = MAPSIZE_X * MAPSIZE_Y;
1302 std::uninitialized_fill_n(
1303 &camera_cache[0][0], map_dimensions, light_transparency_solid );
1304
1305 if( !fov_3d ) {
1306 for( int z = -OVERMAP_DEPTH; z <= OVERMAP_HEIGHT; z++ ) {
1307 auto &cur_cache = get_cache( z );
1308 if( z == target_z || cur_cache.seen_cache_dirty ) {
1309 std::uninitialized_fill_n(
1310 &cur_cache.seen_cache[0][0], map_dimensions, light_transparency_solid );
1311 cur_cache.seen_cache_dirty = false;
1312 }
1313
1314 if( z == target_z ) {
1315 seen_cache[origin.x][origin.y] = VISIBILITY_FULL;
1316 castLightAll<float, float, sight_calc, sight_check, update_light, accumulate_transparency>(
1317 seen_cache, transparency_cache, blocked_cache, origin.xy(), 0 );
1318 }
1319 }
1320 } else {
1321 // Cache the caches (pointers to them)
1322 array_of_grids_of<const float> transparency_caches;
1323 array_of_grids_of<float> seen_caches;
1324 array_of_grids_of<const bool> floor_caches;
1326 for( int z = -OVERMAP_DEPTH; z <= OVERMAP_HEIGHT; z++ ) {
1327 auto &cur_cache = get_cache( z );
1328 transparency_caches[z + OVERMAP_DEPTH] = &cur_cache.vision_transparency_cache;
1329 seen_caches[z + OVERMAP_DEPTH] = &cur_cache.seen_cache;
1330 floor_caches[z + OVERMAP_DEPTH] = &cur_cache.floor_cache;
1331 blocked_caches[z + OVERMAP_DEPTH] = &cur_cache.vehicle_obscured_cache;
1332 std::uninitialized_fill_n(
1333 &cur_cache.seen_cache[0][0], map_dimensions, light_transparency_solid );
1334 cur_cache.seen_cache_dirty = false;
1335 }
1336 if( origin.z == target_z ) {
1338 }
1340 seen_caches, transparency_caches, floor_caches, blocked_caches, origin, 0, 1.0 );
1341 }
1342
1344 if( !vp ) {
1345 return;
1346 }
1347 vehicle *const veh = &vp->vehicle();
1348
1349 // We're inside a vehicle. Do mirror calculations.
1350 std::vector<int> mirrors;
1351 // Do all the sight checks first to prevent fake multiple reflection
1352 // from happening due to mirrors becoming visible due to processing order.
1353 // Cameras are also handled here, so that we only need to get through all vehicle parts once
1354 int cam_control = -1;
1355 for( const vpart_reference &vp : veh->get_avail_parts( VPFLAG_EXTENDS_VISION ) ) {
1356 const tripoint mirror_pos = vp.pos();
1357 // We can utilize the current state of the seen cache to determine
1358 // if the player can see the mirror from their position.
1359 if( !vp.info().has_flag( "CAMERA" ) &&
1360 seen_cache[mirror_pos.x][mirror_pos.y] < LIGHT_TRANSPARENCY_SOLID + 0.1 ) {
1361 continue;
1362 } else if( !vp.info().has_flag( "CAMERA_CONTROL" ) ) {
1363 mirrors.emplace_back( static_cast<int>( vp.part_index() ) );
1364 } else {
1365 if( square_dist( origin, mirror_pos ) <= 1 && veh->camera_on ) {
1366 cam_control = static_cast<int>( vp.part_index() );
1367 }
1368 }
1369 }
1370
1371 for( int mirror : mirrors ) {
1372 bool is_camera = veh->part_info( mirror ).has_flag( "CAMERA" );
1373 if( is_camera && cam_control < 0 ) {
1374 continue; // Player not at camera control, so cameras don't work
1375 }
1376
1377 const tripoint mirror_pos = veh->global_part_pos3( mirror );
1378
1379 // Determine how far the light has already traveled so mirrors
1380 // don't cheat the light distance falloff.
1381 int offsetDistance;
1382 if( !is_camera ) {
1383 offsetDistance = rl_dist( origin, mirror_pos );
1384 } else {
1385 offsetDistance = 60 - veh->part_info( mirror ).bonus *
1386 veh->part( mirror ).hp() / veh->part_info( mirror ).durability;
1387 camera_cache[mirror_pos.x][mirror_pos.y] = LIGHT_TRANSPARENCY_OPEN_AIR;
1388 }
1389
1390 // TODO: Factor in the mirror facing and only cast in the
1391 // directions the player's line of sight reflects to.
1392 //
1393 // The naive solution of making the mirrors act like a second player
1394 // at an offset appears to give reasonable results though.
1395 castLightAll<float, float, sight_calc, sight_check, update_light, accumulate_transparency>(
1396 camera_cache, transparency_cache, blocked_cache, mirror_pos.xy(), offsetDistance );
1397 }
1398}
vehicle_part_with_feature_range< std::string > get_avail_parts(std::string feature) const
Yields a range of parts of this vehicle that each have the given feature and are available: not broke...
Definition: vehicle.cpp:2714
bool camera_on
Definition: vehicle.h:1996
const vpart_info & part_info(int index, bool include_removed=false) const
Definition: vehicle.cpp:1137
int bonus
seatbelt (str), muffler (%), horn (vol), light (intensity), recharing (power)
Definition: veh_type.h:269
bool has_flag(const std::string &flag) const
Definition: veh_type.h:336
int durability
Maximum damage part can sustain before being destroyed.
Definition: veh_type.h:173
template void cast_zlight< float, sight_calc, sight_check, accumulate_transparency >(const array_of_grids_of< float > &output_caches, const array_of_grids_of< const float > &input_arrays, const array_of_grids_of< const bool > &floor_caches, const array_of_grids_of< const diagonal_blocks > &blocked_caches, const tripoint &origin, int offset_distance, float numerator)
static constexpr float VISIBILITY_FULL
Definition: lightmap.h:39
std::array< T(*)[MAPSIZE_X][MAPSIZE_Y], OVERMAP_LAYERS > array_of_grids_of
int hp() const
current part health with range [0,durability]
@ VPFLAG_EXTENDS_VISION
Definition: veh_type.h:68

References vpart_info::bonus, vehicle::camera_on, cast_zlight< float, sight_calc, sight_check, accumulate_transparency >(), vpart_info::durability, fov_3d, vehicle::get_avail_parts(), get_cache(), vehicle::global_part_pos3(), vpart_info::has_flag(), vehicle_part::hp(), LIGHT_TRANSPARENCY_OPEN_AIR, LIGHT_TRANSPARENCY_SOLID, MAPSIZE_X, MAPSIZE_Y, OVERMAP_DEPTH, OVERMAP_HEIGHT, vehicle::part(), vehicle::part_info(), rl_dist(), level_cache::seen_cache, square_dist(), veh_at(), VISIBILITY_FULL, VPFLAG_EXTENDS_VISION, tripoint::x, tripoint::xy(), and tripoint::y.

Referenced by build_map_cache().

◆ build_sunlight_cache()

void map::build_sunlight_cache ( int  pzlev)
protected

Definition at line 220 of file lightmap.cpp.

221{
222 const int zlev_min = zlevels ? -OVERMAP_DEPTH : pzlev;
223 // Start at the topmost populated zlevel to avoid unnecessary raycasting
224 // Plus one zlevel to prevent clipping inside structures
225 const int zlev_max = zlevels
227 std::min( OVERMAP_HEIGHT, pzlev + 1 ),
229 : pzlev;
230
231 // true if all previous z-levels are fully transparent to light (no floors, transparency >= air)
232 bool fully_outside = true;
233
234 // true if no light reaches this level, i.e. there were no lit tiles on the above level (light level <= inside_light_level)
235 bool fully_inside = false;
236
237 // fully_outside and fully_inside define following states:
238 // initially: fully_outside=true, fully_inside=false (fast fill)
239 // ↓
240 // when first obstacles occur: fully_outside=false, fully_inside=false (slow quadrant logic)
241 // ↓
242 // when fully below ground: fully_outside=false, fully_inside=true (fast fill)
243
244 // Iterate top to bottom because sunlight cache needs to construct in that order.
245 for( int zlev = zlev_max; zlev >= zlev_min; zlev-- ) {
246
247 level_cache &map_cache = get_cache( zlev );
248 auto &lm = map_cache.lm;
249 // Grab illumination at ground level.
250 const float outside_light_level = g->natural_light_level( 0 );
251 // TODO: if zlev < 0 is open to sunlight, this won't calculate correct light, but neither does g->natural_light_level()
252 const float inside_light_level = ( zlev >= 0 && outside_light_level > LIGHT_SOURCE_BRIGHT ) ?
254 // Handling when z-levels are disabled is based on whether a tile is considered "outside".
255 if( !zlevels ) {
256 const auto &outside_cache = map_cache.outside_cache;
257 for( int x = 0; x < MAPSIZE_X; x++ ) {
258 for( int y = 0; y < MAPSIZE_Y; y++ ) {
259 if( outside_cache[x][y] ) {
260 lm[x][y].fill( outside_light_level );
261 } else {
262 lm[x][y].fill( inside_light_level );
263 }
264 }
265 }
266 continue;
267 }
268
269 // all light was blocked before
270 if( fully_inside ) {
271 std::fill_n( &lm[0][0], MAPSIZE_X * MAPSIZE_Y, four_quadrants( inside_light_level ) );
272 continue;
273 }
274
275 // If there were no obstacles before this level, just apply weather illumination since there's no opportunity
276 // for light to be blocked.
277 if( fully_outside ) {
278 //fill with full light
279 std::fill_n( &lm[0][0], MAPSIZE_X * MAPSIZE_Y, four_quadrants( outside_light_level ) );
280
281 const auto &this_floor_cache = map_cache.floor_cache;
282 const auto &this_transparency_cache = map_cache.transparency_cache;
283 fully_inside = true; // recalculate
284
285 for( int x = 0; x < MAPSIZE_X; ++x ) {
286 for( int y = 0; y < MAPSIZE_Y; ++y ) {
287 // && semantics below is important, we want to skip the evaluation if possible, do not replace with &=
288
289 // fully_outside stays true if tile is transparent and there is no floor
290 fully_outside = fully_outside && this_transparency_cache[x][y] >= LIGHT_TRANSPARENCY_OPEN_AIR
291 && !this_floor_cache[x][y];
292 // fully_inside stays true if tile is opaque OR there is floor
293 fully_inside = fully_inside && ( this_transparency_cache[x][y] <= LIGHT_TRANSPARENCY_SOLID ||
294 this_floor_cache[x][y] );
295 }
296 }
297 continue;
298 }
299
300 // Replace this with a calculated shift based on time of day and date.
301 // At first compress the angle such that it takes no more than one tile of shift per level.
302 // To exceed that, we'll have to handle casting light from the side instead of the top.
303 point offset;
304 const level_cache &prev_map_cache = get_cache_ref( zlev + 1 );
305 const auto &prev_lm = prev_map_cache.lm;
306 const auto &prev_transparency_cache = prev_map_cache.transparency_cache;
307 const auto &prev_floor_cache = prev_map_cache.floor_cache;
308 const auto &outside_cache = map_cache.outside_cache;
309 const float sight_penalty = get_weather().weather_id->sight_penalty;
310 // TODO: Replace these with a lookup inside the four_quadrants class.
311 constexpr std::array<point, 5> cardinals = {
313 };
314 constexpr std::array<std::array<quadrant, 2>, 5> dir_quadrants = {{
320 }
321 };
322
323 fully_inside = true; // recalculate
324
325 // Fall back to minimal light level if we don't find anything.
326 std::fill_n( &lm[0][0], MAPSIZE_X * MAPSIZE_Y, four_quadrants( inside_light_level ) );
327
328 for( int x = 0; x < MAPSIZE_X; ++x ) {
329 for( int y = 0; y < MAPSIZE_Y; ++y ) {
330 // Check center, then four adjacent cardinals.
331 for( int i = 0; i < 5; ++i ) {
332 int prev_x = x + offset.x + cardinals[i].x;
333 int prev_y = y + offset.y + cardinals[i].y;
334 bool inbounds = prev_x >= 0 && prev_x < MAPSIZE_X &&
335 prev_y >= 0 && prev_y < MAPSIZE_Y;
336
337 if( !inbounds ) {
338 continue;
339 }
340
341 float prev_light_max;
342 float prev_transparency = prev_transparency_cache[prev_x][prev_y];
343 // This is pretty gross, this cancels out the per-tile transparency effect
344 // derived from weather.
345 if( outside_cache[x][y] ) {
346 prev_transparency /= sight_penalty;
347 }
348
349 if( prev_transparency > LIGHT_TRANSPARENCY_SOLID &&
350 !prev_floor_cache[prev_x][prev_y] &&
351 ( prev_light_max = prev_lm[prev_x][prev_y].max() ) > 0.0 ) {
352 const float light_level = clamp( prev_light_max * LIGHT_TRANSPARENCY_OPEN_AIR / prev_transparency,
353 inside_light_level, prev_light_max );
354
355 if( i == 0 ) {
356 lm[x][y].fill( light_level );
357 fully_inside &= light_level <= inside_light_level;
358 break;
359 } else {
360 fully_inside &= light_level <= inside_light_level;
361 lm[x][y][dir_quadrants[i][0]] = light_level;
362 lm[x][y][dir_quadrants[i][1]] = light_level;
363 }
364 }
365 }
366 }
367 }
368 }
369}
constexpr T clamp(const T &val, const T &min, const T &max)
Clamp first argument so that it is no lower than second and no higher than third.
Definition: cata_utility.h:145
int calc_max_populated_zlev()
Caclulate the greatest populated zlevel in the loaded submaps and save in the level cache.
Definition: map.cpp:8911
weather_type_id weather_id
Definition: weather.h:193
weather_manager & get_weather()
Definition: weather.cpp:64
static constexpr float LIGHT_AMBIENT_DIM
Definition: lightmap.h:16
bool floor_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:328
bool outside_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:322
float sight_penalty
Definition: weather_type.h:111

References calc_max_populated_zlev(), clamp(), level_cache::floor_cache, g, get_cache(), get_cache_ref(), get_weather(), inbounds(), LIGHT_AMBIENT_DIM, LIGHT_AMBIENT_LOW, LIGHT_SOURCE_BRIGHT, LIGHT_TRANSPARENCY_OPEN_AIR, LIGHT_TRANSPARENCY_SOLID, level_cache::lm, MAPSIZE_X, MAPSIZE_Y, NE, NW, level_cache::outside_cache, OVERMAP_DEPTH, OVERMAP_HEIGHT, point_east, point_north, point_south, point_west, point_zero, SE, weather_type::sight_penalty, SW, level_cache::transparency_cache, weather_manager::weather_id, point::x, point::y, and zlevels.

Referenced by generate_lightmap().

◆ build_transparency_cache()

bool map::build_transparency_cache ( int  zlev)
protected

Definition at line 81 of file lightmap.cpp.

82{
83 auto &map_cache = get_cache( zlev );
84 auto &transparency_cache = map_cache.transparency_cache;
85 auto &outside_cache = map_cache.outside_cache;
86
87 if( map_cache.transparency_cache_dirty.none() ) {
88 return false;
89 }
90
91 std::set<tripoint> vehicles_processed;
92
93 // if true, all submaps are invalid (can use batch init)
94 bool rebuild_all = map_cache.transparency_cache_dirty.all();
95
96 if( rebuild_all ) {
97 // Default to just barely not transparent.
98 std::uninitialized_fill_n( &transparency_cache[0][0], MAPSIZE_X * MAPSIZE_Y,
99 static_cast<float>( LIGHT_TRANSPARENCY_OPEN_AIR ) );
100 }
101
102 const float sight_penalty = get_weather().weather_id->sight_penalty;
103
104 // Traverse the submaps in order
105 for( int smx = 0; smx < my_MAPSIZE; ++smx ) {
106 for( int smy = 0; smy < my_MAPSIZE; ++smy ) {
107 const auto cur_submap = get_submap_at_grid( {smx, smy, zlev} );
108
109 const point sm_offset = sm_to_ms_copy( point( smx, smy ) );
110
111 if( !rebuild_all && !map_cache.transparency_cache_dirty[smx * MAPSIZE + smy] ) {
112 continue;
113 }
114
115 // calculates transparency of a single tile
116 // x,y - coords in map local coords
117 auto calc_transp = [&]( const point & p ) {
118 const point sp = p - sm_offset;
119 float value = LIGHT_TRANSPARENCY_OPEN_AIR;
120
121 if( !( cur_submap->get_ter( sp ).obj().transparent &&
122 cur_submap->get_furn( sp ).obj().transparent ) ) {
124 }
125 if( outside_cache[p.x][p.y] ) {
126 // FIXME: Places inside vehicles haven't been marked as
127 // inside yet so this is incorrectly penalising for
128 // weather in vehicles.
129 value *= sight_penalty;
130 }
131 for( const auto &fld : cur_submap->get_field( sp ) ) {
132 const field_entry &cur = fld.second;
133 if( cur.is_transparent() ) {
134 continue;
135 }
136 // Fields are either transparent or not, however we want some to be translucent
137 value = value * cur.translucency();
138 }
139 // TODO: [lightmap] Have glass reduce light as well
140 return value;
141 };
142
143 if( cur_submap->is_uniform ) {
144 float value = calc_transp( sm_offset );
145 // if rebuild_all==true all values were already set to LIGHT_TRANSPARENCY_OPEN_AIR
146 if( !rebuild_all || value != LIGHT_TRANSPARENCY_OPEN_AIR ) {
147 for( int sx = 0; sx < SEEX; ++sx ) {
148 // init all sy indices in one go
149 std::uninitialized_fill_n( &transparency_cache[sm_offset.x + sx][sm_offset.y], SEEY, value );
150 }
151 }
152 } else {
153 for( int sx = 0; sx < SEEX; ++sx ) {
154 const int x = sx + sm_offset.x;
155 for( int sy = 0; sy < SEEY; ++sy ) {
156 const int y = sy + sm_offset.y;
157 transparency_cache[x][y] = calc_transp( { x, y } );
158 }
159 }
160 }
161 }
162 }
163 map_cache.transparency_cache_dirty.reset();
164 return true;
165}
An active or passive effect existing on a tile.
Definition: field.h:20
bool is_transparent() const
Definition: field.cpp:84
float translucency() const
Definition: field.cpp:79

References get_cache(), get_submap_at_grid(), get_weather(), field_entry::is_transparent(), LIGHT_TRANSPARENCY_OPEN_AIR, LIGHT_TRANSPARENCY_SOLID, MAPSIZE, MAPSIZE_X, MAPSIZE_Y, my_MAPSIZE, SEEX, SEEY, weather_type::sight_penalty, sm_to_ms_copy(), sx, sy, field_entry::translucency(), and weather_manager::weather_id.

Referenced by build_map_cache().

◆ build_vision_transparency_cache()

bool map::build_vision_transparency_cache ( int  zlev)
protected

Definition at line 167 of file lightmap.cpp.

168{
169 auto &map_cache = get_cache( zlev );
170 auto &transparency_cache = map_cache.transparency_cache;
171 auto &vision_transparency_cache = map_cache.vision_transparency_cache;
172
173 memcpy( &vision_transparency_cache, &transparency_cache, sizeof( transparency_cache ) );
174
175 const tripoint &p = g->u.pos();
176
177 if( p.z != zlev ) {
178 return false;
179 }
180
181 bool dirty = false;
182
183 bool is_crouching = g->u.movement_mode_is( CMM_CROUCH );
184 for( const tripoint &loc : points_in_radius( p, 1 ) ) {
185 if( loc == p ) {
186 // The tile player is standing on should always be visible
187 vision_transparency_cache[p.x][p.y] = LIGHT_TRANSPARENCY_OPEN_AIR;
188 } else if( is_crouching && coverage( loc ) >= 30 ) {
189 // If we're crouching behind an obstacle, we can't see past it.
190 vision_transparency_cache[loc.x][loc.y] = LIGHT_TRANSPARENCY_SOLID;
191 dirty = true;
192 }
193 }
194
195 return dirty;
196}
@ CMM_CROUCH
Definition: character.h:104
int coverage(const tripoint &p) const
Returns coverage value of the tile.
Definition: map.cpp:6236

References CMM_CROUCH, coverage(), g, get_cache(), LIGHT_TRANSPARENCY_OPEN_AIR, LIGHT_TRANSPARENCY_SOLID, points_in_radius(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by build_map_cache().

◆ burn_body_part()

int map::burn_body_part ( player u,
field_entry cur,
body_part  bp,
int  scale 
)
private

Definition at line 124 of file map_field.cpp.

125{
126 int total_damage = 0;
127 const int intensity = cur.get_field_intensity();
128 const int damage = rng( 1, ( scale + intensity ) / 2 );
129 // A bit ugly, but better than being annoyed by acid when in hazmat
130 if( u.get_armor_type( DT_ACID, convert_bp( bp ) ) < damage ) {
131 const dealt_damage_instance ddi = u.deal_damage( nullptr, convert_bp( bp ).id(),
132 damage_instance( DT_ACID, damage ) );
133 total_damage += ddi.total_damage();
134 }
135 // Represents acid seeping in rather than being splashed on
137 1 + intensity ) ), bp, 0 );
138 return total_damage;
139}
units::quantity< V, B > rng(const units::quantity< V, B > &min, const units::quantity< V, B > &max)
Definition: artifact.cpp:32
const bodypart_str_id & convert_bp(body_part bp)
Returns the new id for old token.
Definition: bodypart.cpp:185
dealt_damage_instance deal_damage(Creature *source, bodypart_id bp, const damage_instance &d) override
Calls Creature::deal_damage and handles damaged effects (waking up, etc.)
Definition: character.cpp:8459
int get_armor_type(damage_type dt, bodypart_id bp) const override
Returns overall resistance to given type on the bod part.
Definition: character.cpp:6987
bool add_env_effect(const efftype_id &eff_id, body_part vector, int strength, const time_duration &dur, body_part bp=num_bp, int intensity=1, bool force=false)
Gives chance to save via environmental resist, returns false if resistance was successful.
Definition: creature.cpp:1112
int get_field_intensity() const
Definition: field.cpp:121
static constexpr time_duration from_turns(const T t)
Named constructors to get a duration representing a multiple of the named time units.
Definition: calendar.h:204
@ DT_ACID
Definition: damage.h:26
static const efftype_id effect_corroding("corroding")
int total_damage() const
Definition: damage.cpp:180

References Creature::add_env_effect(), convert_bp(), Character::deal_damage(), DT_ACID, effect_corroding, time_duration::from_turns(), Character::get_armor_type(), field_entry::get_field_intensity(), rng(), and dealt_damage_instance::total_damage().

Referenced by player_in_field().

◆ calc_max_populated_zlev()

int map::calc_max_populated_zlev ( )
private

Caclulate the greatest populated zlevel in the loaded submaps and save in the level cache.

fills the map::max_populated_zlev and returns it

Returns
max_populated_zlev value

Definition at line 8911 of file map.cpp.

8912{
8913 // cache is filled and valid, skip recalculation
8915 return max_populated_zlev->second;
8916 }
8917
8918 // We'll assume ground level is populated
8919 int max_z = 0;
8920
8921 for( int sz = 1; sz <= OVERMAP_HEIGHT; sz++ ) {
8922 bool level_done = false;
8923 for( int sx = 0; sx < my_MAPSIZE; sx++ ) {
8924 for( int sy = 0; sy < my_MAPSIZE; sy++ ) {
8925 const submap *sm = get_submap_at_grid( tripoint( sx, sy, sz ) );
8926 if( !sm->is_uniform ) {
8927 max_z = sz;
8928 level_done = true;
8929 break;
8930 }
8931 }
8932 if( level_done ) {
8933 break;
8934 }
8935 }
8936 }
8937
8938 max_populated_zlev = std::pair<tripoint, int>( get_abs_sub(), max_z );
8939 return max_z;
8940}
cata::optional< std::pair< tripoint, int > > max_populated_zlev
Definition: map.h:2037
tripoint get_abs_sub() const
return abs_sub
Definition: map.cpp:8264

References get_abs_sub(), get_submap_at_grid(), max_populated_zlev, my_MAPSIZE, OVERMAP_HEIGHT, coords::sm, sx, and sy.

Referenced by build_sunlight_cache().

◆ can_move_furniture()

bool map::can_move_furniture ( const tripoint pos,
player p = nullptr 
)
Strength determines what furniture the player can move

Definition at line 1442 of file map.cpp.

1443{
1444 if( !p ) {
1445 return false;
1446 }
1447 const furn_t &furniture_type = furn( pos ).obj();
1448 int required_str = furniture_type.move_str_req;
1449
1450 // Object can not be moved (or nothing there)
1451 if( required_str < 0 ) {
1452 return false;
1453 }
1454
1455 ///\EFFECT_STR determines what furniture the player can move
1456 int adjusted_str = p->str_cur;
1457 if( p->is_mounted() ) {
1458 auto mons = p->mounted_creature.get();
1459 if( mons->has_flag( MF_RIDEABLE_MECH ) && mons->mech_str_addition() != 0 ) {
1460 adjusted_str = mons->mech_str_addition();
1461 }
1462 }
1463 return adjusted_str >= required_str;
1464}
int str_cur
Definition: character.h:247
bool is_mounted() const
Definition: character.cpp:1143
shared_ptr_fast< monster > mounted_creature
Definition: character.h:1556
@ MF_RIDEABLE_MECH
Definition: mtype.h:115
int move_str_req
Definition: mapdata.h:511

References furn(), Character::is_mounted(), MF_RIDEABLE_MECH, Character::mounted_creature, furn_t::move_str_req, int_id< T >::obj(), wrapped_vehicle::pos, and Character::str_cur.

Referenced by grab().

◆ can_put_items() [1/2]

bool map::can_put_items ( const point p) const
inline

Definition at line 970 of file map.h.

970 {
971 return can_put_items( tripoint( p, abs_sub.z ) );
972 }
bool can_put_items(const tripoint &p) const
Definition: map.cpp:2295

References abs_sub, can_put_items(), and tripoint::z.

◆ can_put_items() [2/2]

bool map::can_put_items ( const tripoint p) const

Definition at line 2295 of file map.cpp.

2296{
2297 if( can_put_items_ter_furn( p ) ) {
2298 return true;
2299 }
2300 const optional_vpart_position vp = veh_at( p );
2301 return static_cast<bool>( vp.part_with_feature( "CARGO", true ) );
2302}
bool can_put_items_ter_furn(const tripoint &p) const
Definition: map.cpp:2304

References can_put_items_ter_furn(), optional_vpart_position::part_with_feature(), and veh_at().

Referenced by can_put_items(), complete_construction(), haul(), and game::place_player().

◆ can_put_items_ter_furn() [1/2]

bool map::can_put_items_ter_furn ( const point p) const
inline

Definition at line 975 of file map.h.

975 {
977 }

References abs_sub, can_put_items_ter_furn(), and tripoint::z.

◆ can_put_items_ter_furn() [2/2]

bool map::can_put_items_ter_furn ( const tripoint p) const

◆ can_see_trap_at()

bool map::can_see_trap_at ( const tripoint p,
const Character c 
) const

See trap::can_see, which is called for the trap here.

Definition at line 5112 of file map.cpp.

5113{
5114 return tr_at( p ).can_see( p, c );
5115}
const trap & tr_at(const tripoint &p) const
Definition: map.cpp:5117
constexpr double c
Definition: magic.cpp:1032
bool can_see(const tripoint &pos, const Character &p) const
Can player/npc p see this kind of trap, either by their memory (they known there is the trap) or by t...
Definition: trap.cpp:223

References c, trap::can_see(), and tr_at().

Referenced by can_examine_at(), and vehicle::autodrive_controller::check_drivable().

◆ check_and_set_seen_cache()

bool map::check_and_set_seen_cache ( const tripoint p) const
inline

Definition at line 491 of file map.h.

491 {
492 std::bitset<MAPSIZE_X *MAPSIZE_Y> &memory_seen_cache =
494 if( !memory_seen_cache[ static_cast<size_t>( p.x + p.y * MAPSIZE_Y ) ] ) {
495 memory_seen_cache.set( static_cast<size_t>( p.x + p.y * MAPSIZE_Y ) );
496 return true;
497 }
498 return false;
499 }
std::bitset< MAPSIZE_X *MAPSIZE_Y > map_memory_seen_cache
Definition: map.h:356

References get_cache(), level_cache::map_memory_seen_cache, MAPSIZE_Y, tripoint::x, tripoint::y, and tripoint::z.

Referenced by draw_maptile().

◆ check_seen_cache()

bool map::check_seen_cache ( const tripoint p) const
inline

Definition at line 486 of file map.h.

486 {
487 std::bitset<MAPSIZE_X *MAPSIZE_Y> &memory_seen_cache =
489 return !memory_seen_cache[ static_cast<size_t>( p.x + p.y * MAPSIZE_Y ) ];
490 }

References get_cache(), level_cache::map_memory_seen_cache, MAPSIZE_Y, tripoint::x, tripoint::y, and tripoint::z.

◆ check_submap_active_item_consistency()

std::vector< tripoint > map::check_submap_active_item_consistency ( )

Definition at line 4535 of file map.cpp.

4536{
4537 std::vector<tripoint> result;
4538 for( int z = -OVERMAP_DEPTH; z < OVERMAP_HEIGHT; ++z ) {
4539 for( int x = 0; x < MAPSIZE; ++x ) {
4540 for( int y = 0; y < MAPSIZE; ++y ) {
4541 tripoint p( x, y, z );
4542 submap *s = get_submap_at_grid( p );
4543 bool has_active_items = !s->active_items.get().empty();
4544 bool map_has_active_items = submaps_with_active_items.count( p + abs_sub.xy() );
4545 if( has_active_items != map_has_active_items ) {
4546 result.push_back( p + abs_sub.xy() );
4547 }
4548 }
4549 }
4550 }
4551 for( const tripoint &p : submaps_with_active_items ) {
4552 tripoint rel = p - abs_sub.xy();
4554 if( !map.contains( rel.xy() ) ) {
4555 result.push_back( p );
4556 }
4557 }
4558 return result;
4559}
std::vector< item_reference > get()
Returns a vector of all cached active item references.
Manage and cache data about a part of the map.
Definition: map.h:389

References abs_sub, submap::active_items, active_item_cache::get(), get_submap_at_grid(), map(), MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, point_zero, submaps_with_active_items, and tripoint::xy().

◆ check_vehicle_zones()

bool map::check_vehicle_zones ( int  zlev)

Definition at line 926 of file map.cpp.

927{
928 for( auto veh : get_cache( zlev ).zone_vehicles ) {
929 if( veh->zones_dirty ) {
930 return true;
931 }
932 }
933 return false;
934}

References get_cache().

Referenced by activity_on_turn_move_loot(), talk_function::basecamp_mission(), basecamp::distribute_food(), find_auto_consume(), basecamp::place_results(), and basecamp::validate_sort_points().

◆ clear_path()

bool map::clear_path ( const tripoint f,
const tripoint t,
int  range,
int  cost_min,
int  cost_max 
) const

Check whether there's a direct line of sight between F and T with the additional movecost restraints.

Checks two things:

  1. The sees() algorithm between F and T
  2. That moving over the line of sight would have a move_cost between cost_min and cost_max.

Definition at line 6386 of file map.cpp.

6388{
6389 // Ugly `if` for now
6390 if( !fov_3d && f.z != t.z ) {
6391 return false;
6392 }
6393
6394 if( f.z == t.z ) {
6395 if( ( range >= 0 && range < rl_dist( f.xy(), t.xy() ) ) ||
6396 !inbounds( t ) ) {
6397 return false; // Out of range!
6398 }
6399 bool is_clear = true;
6400 point last_point = f.xy();
6401 bresenham( f.xy(), t.xy(), 0,
6402 [this, &is_clear, cost_min, cost_max, &t, &last_point]( const point & new_point ) {
6403 // Exit before checking the last square, it's still reachable even if it is an obstacle.
6404 if( new_point.x == t.x && new_point.y == t.y ) {
6405 return false;
6406 }
6407
6408 const int cost = this->move_cost( new_point );
6409 if( cost < cost_min || cost > cost_max ||
6410 obstructed_by_vehicle_rotation( tripoint( last_point, t.z ), tripoint( new_point,
6411 t.z ) ) ) {
6412 is_clear = false;
6413 return false;
6414 }
6415
6416 last_point = new_point;
6417 return true;
6418 } );
6419 return is_clear;
6420 }
6421
6422 if( ( range >= 0 && range < rl_dist( f, t ) ) ||
6423 !inbounds( t ) ) {
6424 return false; // Out of range!
6425 }
6426 bool is_clear = true;
6427 tripoint last_point = f;
6428 bresenham( f, t, 0, 0,
6429 [this, &is_clear, cost_min, cost_max, t, &last_point]( const tripoint & new_point ) {
6430 // Exit before checking the last square, it's still reachable even if it is an obstacle.
6431 if( new_point == t ) {
6432 return false;
6433 }
6434
6435 // We have to check a weird case where the move is both vertical and horizontal
6436 if( new_point.z == last_point.z ) {
6437 const int cost = move_cost( new_point );
6438 if( cost < cost_min || cost > cost_max ||
6439 obstructed_by_vehicle_rotation( last_point, new_point ) ) {
6440 is_clear = false;
6441 return false;
6442 }
6443 } else {
6444 bool this_clear = false;
6445 const int max_z = std::max( new_point.z, last_point.z );
6446 if( !has_floor_or_support( {new_point.xy(), max_z} ) ) {
6447 const int cost = move_cost( {new_point.xy(), last_point.z} );
6448 if( cost > cost_min && cost < cost_max &&
6449 !obstructed_by_vehicle_rotation( last_point, new_point ) ) {
6450 this_clear = true;
6451 }
6452 }
6453
6454 if( !this_clear && has_floor_or_support( {last_point.xy(), max_z} ) ) {
6455 const int cost = move_cost( {last_point.xy(), new_point.z} );
6456 if( cost > cost_min && cost < cost_max &&
6457 !obstructed_by_vehicle_rotation( last_point, new_point ) ) {
6458 this_clear = true;
6459 }
6460 }
6461
6462 if( !this_clear ) {
6463 is_clear = false;
6464 return false;
6465 }
6466 }
6467
6468 last_point = new_point;
6469 return true;
6470 } );
6471 return is_clear;
6472}
bool has_floor_or_support(const tripoint &p) const
Definition: map.cpp:2036
int move_cost(const tripoint &p, const vehicle *ignored_vehicle=nullptr) const
Calculate the cost to move past the tile at p.
Definition: map.cpp:1777
void bresenham(const point &p1, const point &p2, int t, const std::function< bool(const point &)> &interact)
The actual Bresenham algorithm in 2D and 3D, everything else should call these and pass in an interac...
Definition: line.cpp:24

References bresenham(), fov_3d, inbounds(), obstructed_by_vehicle_rotation(), rl_dist(), tripoint::xy(), and tripoint::z.

Referenced by find_best_fire(), player::get_eligible_containers_for_crafting(), has_clear_path_to_pickup_items(), points_for_gas_cloud(), process_fields_in_submap(), mattack::riotbot(), game::start_game(), and vehicle_selector::vehicle_selector().

◆ clear_spawns()

void map::clear_spawns ( )

Definition at line 7710 of file map.cpp.

7711{
7712 for( auto &smap : grid ) {
7713 smap->spawns.clear();
7714 }
7715}

References grid.

Referenced by defense_game::init_map().

◆ clear_traps()

void map::clear_traps ( )

Definition at line 7717 of file map.cpp.

7718{
7719 for( auto &smap : grid ) {
7720 for( int x = 0; x < SEEX; x++ ) {
7721 for( int y = 0; y < SEEY; y++ ) {
7722 const point p( x, y );
7723 smap->set_trap( p, tr_null );
7724 }
7725 }
7726 }
7727
7728 // Forget about all trap locations.
7729 for( auto &i : traplocs ) {
7730 i.clear();
7731 }
7732}

References grid, SEEX, SEEY, tr_null, and traplocs.

Referenced by defense_game::init_map().

◆ clear_vehicle_cache()

void map::clear_vehicle_cache ( )

Definition at line 311 of file map.cpp.

312{
313 const int zmin = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
314 const int zmax = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
315 for( int zlev = zmin; zlev <= zmax; zlev++ ) {
316 level_cache &ch = get_cache( zlev );
317 while( !ch.veh_cached_parts.empty() ) {
318 const auto part = ch.veh_cached_parts.begin();
319 const auto &p = part->first;
320 if( inbounds( p ) ) {
321 ch.veh_exists_at[p.x][p.y] = false;
322 }
323 ch.veh_cached_parts.erase( part );
324 }
325 ch.veh_in_active_range = false;
326 }
327}

References abs_sub, get_cache(), inbounds(), OVERMAP_DEPTH, OVERMAP_HEIGHT, level_cache::veh_cached_parts, level_cache::veh_exists_at, level_cache::veh_in_active_range, tripoint::z, and zlevels.

Referenced by editmap::mapgen_preview(), game::place_player_overmap(), reset_vehicle_cache(), rotate(), shift(), and game::vertical_shift().

◆ clear_vehicle_list()

void map::clear_vehicle_list ( int  zlev)

Definition at line 329 of file map.cpp.

330{
331 auto &ch = get_cache( zlev );
332 ch.vehicle_list.clear();
333 ch.zone_vehicles.clear();
334
336}

References get_cache(), and last_full_vehicle_list_dirty.

Referenced by editmap::mapgen_preview(), editmap::mapgen_veh_destroy(), game::place_player_overmap(), rotate(), and shift().

◆ clear_vehicle_point_from_cache()

void map::clear_vehicle_point_from_cache ( vehicle veh,
const tripoint pt 
)

Definition at line 293 of file map.cpp.

294{
295 if( veh == nullptr ) {
296 debugmsg( "Tried to clear null vehicle from cache" );
297 return;
298 }
299
300 level_cache &ch = get_cache( pt.z );
301 if( inbounds( pt ) ) {
302 ch.veh_exists_at[pt.x][pt.y] = false;
303 }
304 auto it = ch.veh_cached_parts.find( pt );
305 if( it != ch.veh_cached_parts.end() && it->second.first == veh ) {
306 ch.veh_cached_parts.erase( it );
307 }
308
309}

References debugmsg, get_cache(), inbounds(), level_cache::veh_cached_parts, level_cache::veh_exists_at, tripoint::x, tripoint::y, and tripoint::z.

Referenced by vehicle::advance_precalc_mounts(), veh_interact::complete_vehicle(), and vehicle::part_removal_cleanup().

◆ climb_difficulty()

int map::climb_difficulty ( const tripoint p) const

Checks 3x3 block centered on p for terrain to climb.

Returns
Difficulty of climbing check from point p.

Definition at line 1966 of file map.cpp.

1967{
1968 if( p.z > OVERMAP_HEIGHT || p.z < -OVERMAP_DEPTH ) {
1969 debugmsg( "climb_difficulty on out of bounds point: %d, %d, %d", p.x, p.y, p.z );
1970 return INT_MAX;
1971 }
1972
1973 int best_difficulty = INT_MAX;
1974 int blocks_movement = 0;
1975 if( has_flag( "LADDER", p ) ) {
1976 // Really easy, but you have to stand on the tile
1977 return 1;
1978 } else if( has_flag( TFLAG_RAMP, p ) || has_flag( TFLAG_RAMP_UP, p ) ||
1979 has_flag( TFLAG_RAMP_DOWN, p ) ) {
1980 // We're on something stair-like, so halfway there already
1981 best_difficulty = 7;
1982 }
1983
1984 for( const auto &pt : points_in_radius( p, 1 ) ) {
1985 if( impassable_ter_furn( pt ) ) {
1986 // TODO: Non-hardcoded climbability
1987 best_difficulty = std::min( best_difficulty, 10 );
1988 blocks_movement++;
1989 } else if( veh_at( pt ) ) {
1990 // Vehicle tiles are quite good for climbing
1991 // TODO: Penalize spiked parts?
1992 best_difficulty = std::min( best_difficulty, 7 );
1993 }
1994
1995 if( best_difficulty > 5 && has_flag( "CLIMBABLE", pt ) ) {
1996 best_difficulty = 5;
1997 }
1998 }
1999
2000 // TODO: Make this more sensible - check opposite sides, not just movement blocker count
2001 return best_difficulty - blocks_movement;
2002}
bool impassable_ter_furn(const tripoint &p) const
Definition: map.cpp:1825
@ TFLAG_RAMP_UP
Definition: mapdata.h:313
@ TFLAG_RAMP
Definition: mapdata.h:314
@ TFLAG_RAMP_DOWN
Definition: mapdata.h:312

References debugmsg, has_flag(), impassable_ter_furn(), OVERMAP_DEPTH, OVERMAP_HEIGHT, points_in_radius(), TFLAG_RAMP, TFLAG_RAMP_DOWN, TFLAG_RAMP_UP, veh_at(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by map_funcs::climbing_cost().

◆ clip_to_bounds() [1/3]

void map::clip_to_bounds ( int &  x,
int &  y 
) const

Definition at line 8854 of file map.cpp.

8855{
8856 if( x < 0 ) {
8857 x = 0;
8858 } else if( x >= SEEX * my_MAPSIZE ) {
8859 x = SEEX * my_MAPSIZE - 1;
8860 }
8861
8862 if( y < 0 ) {
8863 y = 0;
8864 } else if( y >= SEEY * my_MAPSIZE ) {
8865 y = SEEY * my_MAPSIZE - 1;
8866 }
8867}

References my_MAPSIZE, SEEX, and SEEY.

◆ clip_to_bounds() [2/3]

void map::clip_to_bounds ( int &  x,
int &  y,
int &  z 
) const

Definition at line 8869 of file map.cpp.

8870{
8871 clip_to_bounds( x, y );
8872 if( z < -OVERMAP_DEPTH ) {
8873 z = -OVERMAP_DEPTH;
8874 } else if( z > OVERMAP_HEIGHT ) {
8875 z = OVERMAP_HEIGHT;
8876 }
8877}
void clip_to_bounds(tripoint &p) const
Clips the coordinates of p to fit the map bounds.
Definition: map.cpp:8849

References clip_to_bounds(), OVERMAP_DEPTH, and OVERMAP_HEIGHT.

◆ clip_to_bounds() [3/3]

void map::clip_to_bounds ( tripoint p) const

Clips the coordinates of p to fit the map bounds.

Definition at line 8849 of file map.cpp.

8850{
8851 clip_to_bounds( p.x, p.y, p.z );
8852}

References clip_to_bounds(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by MapgenRemovePartHandler::add_item_or_charges(), clip_to_bounds(), and route().

◆ close_door()

bool map::close_door ( const tripoint p,
bool  inside,
bool  check_only 
)

Definition at line 3955 of file map.cpp.

3956{
3957 if( has_flag( "OPENCLOSE_INSIDE", p ) && !inside ) {
3958 return false;
3959 }
3960
3961 const auto &ter = this->ter( p ).obj();
3962 const auto &furn = this->furn( p ).obj();
3963 if( ter.close && !furn.id ) {
3964 if( !check_only ) {
3965 sounds::sound( p, 10, sounds::sound_t::movement, _( "swish" ), true,
3966 "close_door", ter.id.str() );
3967 ter_set( p, ter.close );
3968 }
3969 return true;
3970 } else if( furn.close ) {
3971 if( !check_only ) {
3972 sounds::sound( p, 10, sounds::sound_t::movement, _( "swish" ), true,
3973 "close_door", furn.id.str() );
3974 furn_set( p, furn.close );
3975 }
3976 return true;
3977 }
3978 return false;
3979}
const string_id< T > & id() const
Definition: ammo_effect.cpp:33

References _, furn(), furn_set(), has_flag(), int_id< T >::id(), sounds::movement, int_id< T >::obj(), sounds::sound(), string_id< T >::str(), ter(), and ter_set().

Referenced by can_interact_at(), doors::close_door(), and game::try_get_right_click_action().

◆ collapse_at()

void map::collapse_at ( const tripoint p,
bool  silent,
bool  was_supporting = false,
bool  destroy_pos = true 
)

Causes a collapse at p, such as from destroying a wall.

Definition at line 2895 of file map.cpp.

2897{
2898 const bool supports = was_supporting || has_flag( TFLAG_SUPPORTS_ROOF, p );
2899 const bool wall = was_supporting || has_flag( TFLAG_WALL, p );
2900 // don't bash again if the caller already bashed here
2901 if( destroy_pos ) {
2902 destroy( p, silent );
2903 crush( p );
2904 make_rubble( p );
2905 }
2906 const bool still_supports = has_flag( TFLAG_SUPPORTS_ROOF, p );
2907
2908 // If something supporting the roof collapsed, see what else collapses
2909 if( supports && !still_supports ) {
2910 for( const tripoint &t : points_in_radius( p, 1 ) ) {
2911 // If z-levels are off, tz == t, so we end up skipping a lot of stuff to avoid bugs.
2912 const tripoint &tz = tripoint( t.xy(), t.z + 1 );
2913 // if nothing above us had the chance of collapsing, move on
2914 if( !one_in( collapse_check( tz ) ) ) {
2915 continue;
2916 }
2917 // if a wall collapses, walls without support from below risk collapsing and
2918 //propagate the collapse upwards
2919 if( zlevels && wall && p == t && has_flag( TFLAG_WALL, tz ) ) {
2920 collapse_at( tz, silent );
2921 }
2922 // floors without support from below risk collapsing into open air and can propagate
2923 // the collapse horizontally but not vertically
2924 if( p != t && ( has_flag( TFLAG_SUPPORTS_ROOF, t ) && has_flag( TFLAG_COLLAPSES, t ) ) ) {
2925 collapse_at( t, silent );
2926 }
2927 // this tile used to support a roof, now it doesn't, which means there is only
2928 // open air above us
2929 if( zlevels ) {
2930 ter_set( tz, t_open_air );
2931 furn_set( tz, f_null );
2933 }
2934 }
2935 }
2936 // it would be great to check if collapsing ceilings smashed through the floor, but
2937 // that's not handled for now
2938}
void crush(const tripoint &p)
Definition: map.cpp:3653
int collapse_check(const tripoint &p)
Checks if a square should collapse, returns the X for the one_in(X) collapse chance.
Definition: map.cpp:2846
void make_rubble(const tripoint &p, const furn_id &rubble_type, bool items, const ter_id &floor_type, bool overwrite=false)
Generates rubble at the given location, if overwrite is true it just writes on top of what currently ...
Definition: map.cpp:2495
@ TFLAG_COLLAPSES
Definition: mapdata.h:288
@ TFLAG_WALL
Definition: mapdata.h:300

References collapse_at(), collapse_check(), crush(), destroy(), f_null, furn_set(), has_flag(), make_rubble(), one_in(), points_in_radius(), propagate_suspension_check(), silent, t_open_air, ter_set(), TFLAG_COLLAPSES, TFLAG_SUPPORTS_ROOF, TFLAG_WALL, and zlevels.

Referenced by bash_ter_success(), collapse_at(), and talk_function::loot_building().

◆ collapse_check()

int map::collapse_check ( const tripoint p)

Checks if a square should collapse, returns the X for the one_in(X) collapse chance.

Definition at line 2846 of file map.cpp.

2847{
2848 const bool collapses = has_flag( TFLAG_COLLAPSES, p );
2849 const bool supports_roof = has_flag( TFLAG_SUPPORTS_ROOF, p );
2850
2851 int num_supports = p.z == -OVERMAP_DEPTH ? 0 : -5;
2852 // if there's support below, things are less likely to collapse
2853 if( p.z > -OVERMAP_DEPTH ) {
2854 const tripoint &pbelow = tripoint( p.xy(), p.z - 1 );
2855 for( const tripoint &tbelow : points_in_radius( pbelow, 1 ) ) {
2856 if( has_flag( TFLAG_SUPPORTS_ROOF, pbelow ) ) {
2857 num_supports += 1;
2858 if( has_flag( TFLAG_WALL, pbelow ) ) {
2859 num_supports += 2;
2860 }
2861 if( tbelow == pbelow ) {
2862 num_supports += 2;
2863 }
2864 }
2865 }
2866 }
2867
2868 for( const tripoint &t : points_in_radius( p, 1 ) ) {
2869 if( p == t ) {
2870 continue;
2871 }
2872
2873 if( collapses ) {
2874 if( has_flag( TFLAG_COLLAPSES, t ) ) {
2875 num_supports++;
2876 } else if( has_flag( TFLAG_SUPPORTS_ROOF, t ) ) {
2877 num_supports += 2;
2878 }
2879 } else if( supports_roof ) {
2880 if( has_flag( TFLAG_SUPPORTS_ROOF, t ) ) {
2881 if( has_flag( TFLAG_WALL, t ) ) {
2882 num_supports += 4;
2883 } else if( !has_flag( TFLAG_COLLAPSES, t ) ) {
2884 num_supports += 3;
2885 }
2886 }
2887 }
2888 }
2889
2890 return 1.7 * num_supports;
2891}

References has_flag(), OVERMAP_DEPTH, points_in_radius(), TFLAG_COLLAPSES, TFLAG_SUPPORTS_ROOF, TFLAG_WALL, tripoint::xy(), and tripoint::z.

Referenced by collapse_at().

◆ collapse_invalid_suspension()

void map::collapse_invalid_suspension ( const tripoint point)

Triggers a recursive collapse of suspended tiles based on their support validity.

Definition at line 2949 of file map.cpp.

2950{
2951 if( !is_suspension_valid( point ) ) {
2953 furn_set( point, f_null );
2954
2956 }
2957}
bool is_suspension_valid(const tripoint &point)
Checks the four orientations in which a suspended tile could be valid, and returns if the tile is val...
Definition: map.cpp:2959

References f_null, furn_set(), is_suspension_valid(), propagate_suspension_check(), t_open_air, and ter_set().

Referenced by drop_everything(), and propagate_suspension_check().

◆ combined_movecost()

int map::combined_movecost ( const tripoint from,
const tripoint to,
const vehicle ignored_vehicle = nullptr,
int  modifier = 0,
bool  flying = false,
bool  via_ramp = false 
) const

Cost to move out of one tile and into the next.

Returns
The cost in turns to move out of tripoint from and into to

Definition at line 1835 of file map.cpp.

1838{
1839 const int mults[4] = { 0, 50, 71, 100 };
1840 const int cost1 = move_cost( from, ignored_vehicle );
1841 const int cost2 = move_cost( to, ignored_vehicle );
1842 // Multiply cost depending on the number of differing axes
1843 // 0 if all axes are equal, 100% if only 1 differs, 141% for 2, 200% for 3
1844 size_t match = trigdist ? ( from.x != to.x ) + ( from.y != to.y ) + ( from.z != to.z ) : 1;
1845 if( flying || from.z == to.z ) {
1846 return ( cost1 + cost2 + modifier ) * mults[match] / 2;
1847 }
1848
1849 // Inter-z-level movement by foot (not flying)
1850 if( !valid_move( from, to, false, via_ramp ) ) {
1851 return 0;
1852 }
1853
1854 // TODO: Penalize for using stairs
1855 return ( cost1 + cost2 + modifier ) * mults[match] / 2;
1856}
bool valid_move(const tripoint &from, const tripoint &to, bool bash=false, bool flying=false, bool via_ramp=false) const
Returns true if a creature could walk from from to to in one step.
Definition: map.cpp:1858

References move_cost(), trigdist, valid_move(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by npc::move_away_from(), npc::move_to(), and game::walk_move().

◆ computer_at()

computer * map::computer_at ( const tripoint p)

Definition at line 5534 of file map.cpp.

5535{
5536 if( !inbounds( p ) ) {
5537 return nullptr;
5538 }
5539
5540 point l;
5541 submap *const sm = get_submap_at( p, l );
5542 return sm->get_computer( l );
5543}

References get_submap_at(), inbounds(), and coords::sm.

Referenced by mission_start::reveal_lab_train_depot(), and game::use_computer().

◆ copy_grid()

void map::copy_grid ( const tripoint to,
const tripoint from 
)
protected

Definition at line 7495 of file map.cpp.

7496{
7497 const auto smap = get_submap_at_grid( from );
7498 setsubmap( get_nonant( to ), smap );
7499 for( auto &it : smap->vehicles ) {
7500 it->sm_pos = to;
7501 }
7502}
void setsubmap(size_t grididx, submap *smap)
Set the submap pointer in grid at the give index.
Definition: map.cpp:8278
size_t get_nonant(const tripoint &gridp) const
Get the index of a submap pointer in the grid given by grid coordinates.
Definition: map.cpp:8311

References get_nonant(), get_submap_at_grid(), and setsubmap().

Referenced by shift().

◆ could_see_items() [1/2]

bool map::could_see_items ( const tripoint p,
const Creature who 
) const

Check if the creature could see items at p if there were any items.

This is similar to sees_some_items, but it does not check that there are actually any items.

Definition at line 4728 of file map.cpp.

4729{
4730 return could_see_items( p, who.pos() );
4731}
virtual const tripoint & pos() const =0
bool could_see_items(const tripoint &p, const Creature &who) const
Check if the creature could see items at p if there were any items.
Definition: map.cpp:4728

References could_see_items(), and Creature::pos().

Referenced by could_see_items(), game::print_items_info(), and sees_some_items().

◆ could_see_items() [2/2]

bool map::could_see_items ( const tripoint p,
const tripoint from 
) const

Definition at line 4733 of file map.cpp.

4734{
4735 static const std::string container_string( "CONTAINER" );
4736 const bool container = has_flag_ter_or_furn( container_string, p );
4737 const bool sealed = has_flag_ter_or_furn( TFLAG_SEALED, p );
4738 if( sealed && container ) {
4739 // never see inside of sealed containers
4740 return false;
4741 }
4742 if( container ) {
4743 // can see inside of containers if adjacent or
4744 // on top of the container
4745 return ( std::abs( p.x - from.x ) <= 1 &&
4746 std::abs( p.y - from.y ) <= 1 &&
4747 std::abs( p.z - from.z ) <= 1 );
4748 }
4749 return true;
4750}
bool has_flag_ter_or_furn(const std::string &flag, const tripoint &p) const
Definition: map.cpp:2319
@ TFLAG_SEALED
Definition: mapdata.h:285

References has_flag_ter_or_furn(), TFLAG_SEALED, tripoint::x, tripoint::y, and tripoint::z.

◆ coverage()

int map::coverage ( const tripoint p) const

Returns coverage value of the tile.

Definition at line 6236 of file map.cpp.

6237{
6238 if( const auto obstacle_f = furn( p ) ) {
6239 return obstacle_f->coverage;
6240 }
6241 if( const auto vp = veh_at( p ) ) {
6242 if( vp->obstacle_at_part() ) {
6243 return 60;
6244 } else if( !vp->part_with_feature( VPFLAG_AISLE, true ) ) {
6245 return 45;
6246 }
6247 }
6248 return ter( p )->coverage;
6249}
@ VPFLAG_AISLE
Definition: veh_type.h:40

References map_data_common_t::coverage, furn(), ter(), veh_at(), and VPFLAG_AISLE.

Referenced by build_vision_transparency_cache(), and game::print_terrain_info().

◆ create_anomaly() [1/2]

void map::create_anomaly ( const point cp,
artifact_natural_property  prop,
bool  create_rubble = true 
)
inline

Definition at line 1388 of file map.h.

1388 {
1389 create_anomaly( tripoint( cp, abs_sub.z ), prop, create_rubble );
1390 }
void create_anomaly(const tripoint &p, artifact_natural_property prop, bool create_rubble=true)
Definition: mapgen.cpp:6320

References abs_sub, create_anomaly(), and tripoint::z.

◆ create_anomaly() [2/2]

void map::create_anomaly ( const tripoint p,
artifact_natural_property  prop,
bool  create_rubble = true 
)

Definition at line 6320 of file mapgen.cpp.

6321{
6322 // TODO: Z
6323 point c( cp.xy() );
6324 if( create_rubble ) {
6325 rough_circle( this, t_dirt, c, 11 );
6326 rough_circle_furn( this, f_rubble, c, 5 );
6327 furn_set( c, f_null );
6328 }
6329 switch( prop ) {
6330 case ARTPROP_WRIGGLING:
6331 case ARTPROP_MOVING:
6332 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6333 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6334 if( furn( point( i, j ) ) == f_rubble ) {
6335 add_field( {i, j, abs_sub.z}, fd_push_items, 1 );
6336 if( one_in( 3 ) ) {
6337 spawn_item( point( i, j ), "rock" );
6338 }
6339 }
6340 }
6341 }
6342 break;
6343
6344 case ARTPROP_GLOWING:
6345 case ARTPROP_GLITTERING:
6346 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6347 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6348 if( furn( point( i, j ) ) == f_rubble && one_in( 2 ) ) {
6349 mtrap_set( this, point( i, j ), tr_glow );
6350 }
6351 }
6352 }
6353 break;
6354
6355 case ARTPROP_HUMMING:
6356 case ARTPROP_RATTLING:
6357 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6358 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6359 if( furn( point( i, j ) ) == f_rubble && one_in( 2 ) ) {
6360 mtrap_set( this, point( i, j ), tr_hum );
6361 }
6362 }
6363 }
6364 break;
6365
6366 case ARTPROP_WHISPERING:
6367 case ARTPROP_ENGRAVED:
6368 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6369 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6370 if( furn( point( i, j ) ) == f_rubble && one_in( 3 ) ) {
6371 mtrap_set( this, point( i, j ), tr_shadow );
6372 }
6373 }
6374 }
6375 break;
6376
6377 case ARTPROP_BREATHING:
6378 for( int i = c.x - 1; i <= c.x + 1; i++ ) {
6379 for( int j = c.y - 1; j <= c.y + 1; j++ ) {
6380 if( i == c.x && j == c.y ) {
6381 place_spawns( GROUP_BREATHER_HUB, 1, point( i, j ), point( i, j ), 1,
6382 true );
6383 } else {
6384 place_spawns( GROUP_BREATHER, 1, point( i, j ), point( i, j ), 1, true );
6385 }
6386 }
6387 }
6388 break;
6389
6390 case ARTPROP_DEAD:
6391 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6392 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6393 if( furn( point( i, j ) ) == f_rubble ) {
6394 mtrap_set( this, point( i, j ), tr_drain );
6395 }
6396 }
6397 }
6398 break;
6399
6400 case ARTPROP_ITCHY:
6401 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6402 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6403 if( furn( point( i, j ) ) == f_rubble ) {
6404 set_radiation( point( i, j ), rng( 0, 10 ) );
6405 }
6406 }
6407 }
6408 break;
6409
6410 case ARTPROP_ELECTRIC:
6411 case ARTPROP_CRACKLING:
6412 add_field( {c, abs_sub.z}, fd_shock_vent, 3 );
6413 break;
6414
6415 case ARTPROP_SLIMY:
6416 add_field( {c, abs_sub.z}, fd_acid_vent, 3 );
6417 break;
6418
6419 case ARTPROP_WARM:
6420 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6421 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6422 if( furn( point( i, j ) ) == f_rubble ) {
6423 add_field( {i, j, abs_sub.z}, fd_fire_vent, 1 + ( rl_dist( c, point( i, j ) ) % 3 ) );
6424 }
6425 }
6426 }
6427 break;
6428
6429 case ARTPROP_SCALED:
6430 for( int i = c.x - 5; i <= c.x + 5; i++ ) {
6431 for( int j = c.y - 5; j <= c.y + 5; j++ ) {
6432 if( furn( point( i, j ) ) == f_rubble ) {
6433 mtrap_set( this, point( i, j ), tr_snake );
6434 }
6435 }
6436 }
6437 break;
6438
6439 case ARTPROP_FRACTAL:
6440 create_anomaly( c + point( -4, -4 ),
6441 static_cast<artifact_natural_property>( rng( ARTPROP_NULL + 1, ARTPROP_MAX - 1 ) ) );
6442 create_anomaly( c + point( 4, -4 ),
6443 static_cast<artifact_natural_property>( rng( ARTPROP_NULL + 1, ARTPROP_MAX - 1 ) ) );
6444 create_anomaly( c + point( -4, 4 ),
6445 static_cast<artifact_natural_property>( rng( ARTPROP_NULL + 1, ARTPROP_MAX - 1 ) ) );
6446 create_anomaly( c + point( 4, -4 ),
6447 static_cast<artifact_natural_property>( rng( ARTPROP_NULL + 1, ARTPROP_MAX - 1 ) ) );
6448 break;
6449 default:
6450 break;
6451 }
6452}
bool add_field(const tripoint &p, const field_type_id &type_id, int intensity=INT_MAX, const time_duration &age=0_turns, bool hit_player=true)
Add field entry at point, or set intensity if present.
Definition: map.cpp:5388
void place_spawns(const mongroup_id &group, int chance, const point &p1, const point &p2, float density, bool individual=false, bool friendly=false, const std::string &name="NONE", int mission_id=-1)
Definition: mapgen.cpp:5389
void set_radiation(const tripoint &p, int value)
Definition: map.cpp:4027
void spawn_item(const tripoint &p, const itype_id &type_id, unsigned quantity=1, int charges=0, const time_point &birthday=calendar::start_of_cataclysm, int damlevel=0)
Definition: map.cpp:4175
artifact_natural_property
Definition: enums.h:152
@ ARTPROP_GLITTERING
Definition: enums.h:162
@ ARTPROP_ITCHY
Definition: enums.h:161
@ ARTPROP_RATTLING
Definition: enums.h:168
@ ARTPROP_WRIGGLING
Definition: enums.h:154
@ ARTPROP_HUMMING
Definition: enums.h:156
@ ARTPROP_WHISPERING
Definition: enums.h:158
@ ARTPROP_ENGRAVED
Definition: enums.h:165
@ ARTPROP_ELECTRIC
Definition: enums.h:163
@ ARTPROP_FRACTAL
Definition: enums.h:170
@ ARTPROP_SCALED
Definition: enums.h:169
@ ARTPROP_GLOWING
Definition: enums.h:155
@ ARTPROP_NULL
Definition: enums.h:153
@ ARTPROP_DEAD
Definition: enums.h:160
@ ARTPROP_BREATHING
Definition: enums.h:159
@ ARTPROP_MAX
Definition: enums.h:171
@ ARTPROP_CRACKLING
Definition: enums.h:166
@ ARTPROP_WARM
Definition: enums.h:167
@ ARTPROP_MOVING
Definition: enums.h:157
@ ARTPROP_SLIMY
Definition: enums.h:164
field_type_id fd_fire_vent
Definition: field_type.cpp:351
field_type_id fd_acid_vent
Definition: field_type.cpp:357
field_type_id fd_push_items
Definition: field_type.cpp:355
field_type_id fd_shock_vent
Definition: field_type.cpp:356
furn_id f_rubble
Definition: mapdata.cpp:1097
void rough_circle(map *m, const ter_id &type, const point &p, int rad)
Definition: mapgen.cpp:6487
void rough_circle_furn(map *m, const furn_id &type, const point &p, int rad)
Definition: mapgen.cpp:6491
static const mongroup_id GROUP_BREATHER("GROUP_BREATHER")
static const mongroup_id GROUP_BREATHER_HUB("GROUP_BREATHER_HUB")
void mtrap_set(map *m, const point &p, trap_id type)
static const trap_str_id tr_drain("tr_drain")
static const trap_str_id tr_snake("tr_snake")
static const trap_str_id tr_shadow("tr_shadow")
trap_id tr_glow
Definition: trap.cpp:312
trap_id tr_hum
Definition: trap.cpp:313

References abs_sub, add_field(), ARTPROP_BREATHING, ARTPROP_CRACKLING, ARTPROP_DEAD, ARTPROP_ELECTRIC, ARTPROP_ENGRAVED, ARTPROP_FRACTAL, ARTPROP_GLITTERING, ARTPROP_GLOWING, ARTPROP_HUMMING, ARTPROP_ITCHY, ARTPROP_MAX, ARTPROP_MOVING, ARTPROP_NULL, ARTPROP_RATTLING, ARTPROP_SCALED, ARTPROP_SLIMY, ARTPROP_WARM, ARTPROP_WHISPERING, ARTPROP_WRIGGLING, c, create_anomaly(), f_null, f_rubble, fd_acid_vent, fd_fire_vent, fd_push_items, fd_shock_vent, furn(), furn_set(), GROUP_BREATHER, GROUP_BREATHER_HUB, mtrap_set(), one_in(), place_spawns(), rl_dist(), rng(), rough_circle(), rough_circle_furn(), set_radiation(), spawn_item(), t_dirt, tr_drain, tr_glow, tr_hum, tr_shadow, tr_snake, tripoint::xy(), and tripoint::z.

Referenced by create_anomaly(), debug_menu::debug(), draw_lab(), and MapExtras::mx_portal_in().

◆ create_burnproducts()

void map::create_burnproducts ( const tripoint p,
const item fuel,
const units::mass burned_mass 
)

Definition at line 96 of file map_field.cpp.

97{
98 std::vector<material_id> all_mats = fuel.made_of();
99 if( all_mats.empty() ) {
100 return;
101 }
102 // Items that are multiple materials are assumed to be equal parts each.
103 const units::mass by_weight = burned_mass / all_mats.size();
104 for( material_id &mat : all_mats ) {
105 for( auto &bp : mat->burn_products() ) {
106 itype_id id = bp.first;
107 // Spawning the same item as the one that was just burned is pointless
108 // and leads to infinite recursion.
109 if( fuel.typeId() == id ) {
110 continue;
111 }
112 const float eff = bp.second;
113 const int n = std::floor( eff * ( by_weight / id->weight ) );
114
115 if( n <= 0 ) {
116 continue;
117 }
118 spawn_item( p, id, n, 1, calendar::turn );
119 }
120 }
121}
const std::string id
Definition: basecamp.h:87

References base_camps::id, item::made_of(), spawn_item(), calendar::turn, and item::typeId().

Referenced by MapExtras::burned_ground_parser(), and process_fields_in_submap().

◆ create_hot_air()

void map::create_hot_air ( const tripoint p,
int  intensity 
)
private

Definition at line 363 of file map_field.cpp.

364{
365 field_type_id hot_air;
366 switch( intensity ) {
367 case 1:
368 hot_air = fd_hot_air1;
369 break;
370 case 2:
371 hot_air = fd_hot_air2;
372 break;
373 case 3:
374 hot_air = fd_hot_air3;
375 break;
376 case 4:
377 hot_air = fd_hot_air4;
378 break;
379 default:
380 debugmsg( "Tried to spread hot air with intensity %d", intensity );
381 return;
382 }
383
384 for( int counter = 0; counter < 5; counter++ ) {
385 tripoint dst( p + point( rng( -1, 1 ), rng( -1, 1 ) ) );
386 add_field( dst, hot_air, 1 );
387 }
388}
field_type_id fd_hot_air3
Definition: field_type.cpp:381
field_type_id fd_hot_air2
Definition: field_type.cpp:380
field_type_id fd_hot_air1
Definition: field_type.cpp:379
field_type_id fd_hot_air4
Definition: field_type.cpp:382

References add_field(), debugmsg, fd_hot_air1, fd_hot_air2, fd_hot_air3, fd_hot_air4, and rng().

Referenced by process_fields_in_submap().

◆ creature_in_field()

void map::creature_in_field ( Creature critter)

Apply field effects to the creature when it's on a square with fields.

Definition at line 1563 of file map_field.cpp.

1564{
1565 bool in_vehicle = false;
1566 bool inside_vehicle = false;
1567 player *u = critter.as_player();
1568 if( critter.is_monster() ) {
1569 monster_in_field( *static_cast<monster *>( &critter ) );
1570 } else {
1571 if( u ) {
1572 in_vehicle = u->in_vehicle;
1573 // If we are in a vehicle figure out if we are inside (reduces effects usually)
1574 // and what part of the vehicle we need to deal with.
1575 if( in_vehicle ) {
1576 if( const optional_vpart_position vp = veh_at( u->pos() ) ) {
1577 if( vp->is_inside() ) {
1578 inside_vehicle = true;
1579 }
1580 }
1581 }
1582 player_in_field( *u );
1583 }
1584 }
1585
1586 field &curfield = get_field( critter.pos() );
1587 for( auto &field_entry_it : curfield ) {
1588 field_entry &cur_field_entry = field_entry_it.second;
1589 if( !cur_field_entry.is_field_alive() ) {
1590 continue;
1591 }
1592 const field_type_id cur_field_id = cur_field_entry.get_field_type();
1593
1594 for( const auto &fe : cur_field_entry.field_effects() ) {
1595 if( in_vehicle && fe.immune_in_vehicle ) {
1596 continue;
1597 }
1598 if( inside_vehicle && fe.immune_inside_vehicle ) {
1599 continue;
1600 }
1601 if( !inside_vehicle && fe.immune_outside_vehicle ) {
1602 continue;
1603 }
1604 if( in_vehicle && !one_in( fe.chance_in_vehicle ) ) {
1605 continue;
1606 }
1607 if( inside_vehicle && !one_in( fe.chance_inside_vehicle ) ) {
1608 continue;
1609 }
1610 if( !inside_vehicle && !one_in( fe.chance_outside_vehicle ) ) {
1611 continue;
1612 }
1613
1614 const effect field_fx = fe.get_effect();
1615 if( critter.is_immune_field( cur_field_id ) || critter.is_immune_effect( field_fx.get_id() ) ) {
1616 continue;
1617 }
1618 bool effect_added = false;
1619 if( fe.is_environmental ) {
1620 effect_added = critter.add_env_effect( fe.id, fe.bp->token, fe.intensity, fe.get_duration() );
1621 } else {
1622 effect_added = true;
1623 critter.add_effect( field_fx );
1624 }
1625 if( effect_added ) {
1626 critter.add_msg_player_or_npc( fe.env_message_type, fe.get_message(), fe.get_message_npc() );
1627 }
1628 }
1629 }
1630}
bool in_vehicle
Definition: character.h:1511
virtual bool is_monster() const
Definition: creature.h:101
virtual bool is_immune_field(const field_type_id &) const
Returns true if we are immune to the field type with the given fid.
Definition: creature.h:325
virtual void add_msg_player_or_npc(const std::string &, const std::string &) const
Definition: creature.h:677
virtual player * as_player()
Definition: creature.h:122
virtual bool is_immune_effect(const efftype_id &type) const =0
Definition: effect.h:161
const efftype_id & get_id() const
Returns the effect's matching effect_type id.
Definition: effect.h:305
std::vector< field_effect > field_effects() const
Definition: field.cpp:294
bool is_field_alive()
Definition: field.h:89
field_type_id get_field_type() const
Definition: field.cpp:105
A variable sized collection of field entries on a given map square.
Definition: field.h:131
void player_in_field(player &u)
Definition: map_field.cpp:1224
void monster_in_field(monster &z)
Definition: map_field.cpp:1632

References Creature::add_effect(), Creature::add_env_effect(), Creature::add_msg_player_or_npc(), Creature::as_player(), field_entry::field_effects(), get_field(), field_entry::get_field_type(), effect::get_id(), Character::in_vehicle, field_entry::is_field_alive(), Creature::is_immune_effect(), Creature::is_immune_field(), Creature::is_monster(), monster_in_field(), one_in(), player_in_field(), Creature::pos(), Character::pos(), and veh_at().

Referenced by add_field(), game::do_turn(), game::monmove(), npc::move_to(), and game::place_player().

◆ creature_on_trap()

void map::creature_on_trap ( Creature critter,
bool  may_avoid = true 
)

Apply trap effects to the creature, similar to creature_in_field.

If there is no trap at the creatures location, nothing is done. If the creature can avoid the trap, nothing is done as well. Otherwise the trap is triggered.

Parameters
critterCreature that just got trapped
may_avoidIf true, the creature tries to avoid the trap (Creature::avoid_trap). If false, the trap is always triggered.

Definition at line 8460 of file map.cpp.

8461{
8462 const auto &tr = tr_at( c.pos() );
8463 if( tr.is_null() ) {
8464 return;
8465 }
8466 // boarded in a vehicle means the player is above the trap, like a flying monster and can
8467 // never trigger the trap.
8468 const player *const p = dynamic_cast<const player *>( &c );
8469 if( p != nullptr && p->in_vehicle ) {
8470 return;
8471 }
8472 if( may_avoid && c.avoid_trap( c.pos(), tr ) ) {
8473 return;
8474 }
8475 tr.trigger( c.pos(), &c );
8476}

References c, Character::in_vehicle, and tr_at().

Referenced by game::fling_creature(), iexamine::ledge(), npc::move_to(), game::phasing_move(), game::place_player(), mattack::ranged_pull(), smash(), and game::vertical_move().

◆ crush()

void map::crush ( const tripoint p)

Definition at line 3653 of file map.cpp.

3654{
3655 player *crushed_player = g->critter_at<player>( p );
3656
3657 if( crushed_player != nullptr ) {
3658 bool player_inside = false;
3659 if( crushed_player->in_vehicle ) {
3660 const optional_vpart_position vp = veh_at( p );
3661 player_inside = vp && vp->is_inside();
3662 }
3663 if( !player_inside ) { //If there's a player at p and he's not in a covered vehicle...
3664 //This is the roof coming down on top of us, no chance to dodge
3665 crushed_player->add_msg_player_or_npc( m_bad, _( "You are crushed by the falling debris!" ),
3666 _( "<npcname> is crushed by the falling debris!" ) );
3667 // TODO: Make this depend on the ceiling material
3668 const int dam = rng( 0, 40 );
3669 // Torso and head take the brunt of the blow
3670 crushed_player->deal_damage( nullptr, bodypart_id( "head" ), damage_instance( DT_BASH,
3671 dam * .25 ) );
3672 crushed_player->deal_damage( nullptr, bodypart_id( "torso" ), damage_instance( DT_BASH,
3673 dam * .45 ) );
3674 // Legs take the next most through transferred force
3675 crushed_player->deal_damage( nullptr, bodypart_id( "leg_l" ), damage_instance( DT_BASH,
3676 dam * .10 ) );
3677 crushed_player->deal_damage( nullptr, bodypart_id( "leg_r" ), damage_instance( DT_BASH,
3678 dam * .10 ) );
3679 // Arms take the least
3680 crushed_player->deal_damage( nullptr, bodypart_id( "arm_l" ), damage_instance( DT_BASH,
3681 dam * .05 ) );
3682 crushed_player->deal_damage( nullptr, bodypart_id( "arm_r" ), damage_instance( DT_BASH,
3683 dam * .05 ) );
3684
3685 // Pin whoever got hit
3686 crushed_player->add_effect( effect_crushed, 1_turns, num_bp );
3687 crushed_player->check_dead_state();
3688 }
3689 }
3690
3691 if( monster *const monhit = g->critter_at<monster>( p ) ) {
3692 // 25 ~= 60 * .45 (torso)
3693 monhit->deal_damage( nullptr, bodypart_id( "torso" ), damage_instance( DT_BASH, rng( 0, 25 ) ) );
3694
3695 // Pin whoever got hit
3696 monhit->add_effect( effect_crushed, 1_turns, num_bp );
3697 monhit->check_dead_state();
3698 }
3699
3700 if( const optional_vpart_position vp = veh_at( p ) ) {
3701 // Arbitrary number is better than collapsing house roof crushing APCs
3702 vp->vehicle().damage( vp->part_index(), rng( 100, 1000 ), DT_BASH, false );
3703 }
3704}
int_id< body_part_type > bodypart_id
Definition: bodypart.h:23
@ num_bp
Definition: bodypart.h:52
void check_dead_state()
This function checks the creatures is_dead_state and (if true) calls die.
Definition: creature.cpp:1839
void add_msg_player_or_npc(const std::string &player_msg, const std::string &npc_str) const override
Definition: player.cpp:3978
@ m_bad
Definition: enums.h:254
static const efftype_id effect_crushed("crushed")

References _, Creature::add_effect(), player::add_msg_player_or_npc(), Creature::check_dead_state(), Character::deal_damage(), DT_BASH, effect_crushed, g, Character::in_vehicle, m_bad, num_bp, rng(), and veh_at().

Referenced by collapse_at().

◆ dangerous_field_at()

bool map::dangerous_field_at ( const tripoint p)

Definition at line 5377 of file map.cpp.

5378{
5379 for( auto &pr : field_at( p ) ) {
5380 auto &fd = pr.second;
5381 if( fd.is_dangerous() ) {
5382 return true;
5383 }
5384 }
5385 return false;
5386}
const field & field_at(const tripoint &p) const
Get the fields that are here.
Definition: map.cpp:5279

References field_at().

Referenced by are_requirements_nearby(), and generic_multi_activity_locations().

◆ decay_cosmetic_fields()

void map::decay_cosmetic_fields ( const tripoint p,
const time_duration time_since_last_actualize 
)
protected

Definition at line 7374 of file map.cpp.

7376{
7377 for( auto &pr : field_at( p ) ) {
7378 auto &fd = pr.second;
7379 const time_duration hl = fd.get_field_type().obj().half_life;
7380 if( !fd.decays_on_actualize() || hl <= 0_turns ) {
7381 continue;
7382 }
7383
7384 const time_duration added_age = 2 * time_since_last_actualize / rng( 2, 4 );
7385 fd.mod_field_age( added_age );
7386 const int intensity_drop = fd.get_field_age() / hl;
7387 if( intensity_drop > 0 ) {
7388 fd.set_field_intensity( fd.get_field_intensity() - intensity_drop );
7389 fd.mod_field_age( -hl * intensity_drop );
7390 }
7391 }
7392}

References field_at(), and rng().

Referenced by actualize().

◆ decay_fields_and_scent()

void map::decay_fields_and_scent ( const time_duration amount)

Moved here from weather.cpp for speed.

Decays fire, washable fields and scent. Washable fields are decayed only by 1/3 of the amount fire is.

Definition at line 2660 of file map.cpp.

2661{
2662 // TODO: Make this happen on all z-levels
2663
2664 // Decay scent separately, so that later we can use field count to skip empty submaps
2665 g->scent.decay();
2666
2667 // Coordinate code copied from lightmap calculations
2668 // TODO: Z
2669 const int smz = abs_sub.z;
2670 const auto &outside_cache = get_cache_ref( smz ).outside_cache;
2671 for( int smx = 0; smx < my_MAPSIZE; ++smx ) {
2672 for( int smy = 0; smy < my_MAPSIZE; ++smy ) {
2673 const auto cur_submap = get_submap_at_grid( { smx, smy, smz } );
2674 int to_proc = cur_submap->field_count;
2675 if( to_proc < 1 ) {
2676 if( to_proc < 0 ) {
2677 cur_submap->field_count = 0;
2678 dbg( DL::Error ) << "map::decay_fields_and_scent: submap at "
2679 << ( abs_sub + tripoint( smx, smy, 0 ) )
2680 << "has " << to_proc << " field_count";
2681 }
2682 get_cache( smz ).field_cache.reset( smx + ( smy * MAPSIZE ) );
2683 // This submap has no fields
2684 continue;
2685 }
2686
2687 for( int sx = 0; sx < SEEX; ++sx ) {
2688 if( to_proc < 1 ) {
2689 // This submap had some fields, but all got proc'd already
2690 break;
2691 }
2692
2693 for( int sy = 0; sy < SEEY; ++sy ) {
2694 const int x = sx + smx * SEEX;
2695 const int y = sy + smy * SEEY;
2696
2697 field &fields = cur_submap->get_field( { sx, sy} );
2698 if( !outside_cache[x][y] ) {
2699 to_proc -= fields.field_count();
2700 continue;
2701 }
2702
2703 for( auto &fp : fields ) {
2704 to_proc--;
2705 field_entry &cur = fp.second;
2706 const field_type_id type = cur.get_field_type();
2707 const int decay_amount_factor = type.obj().decay_amount_factor;
2708 if( decay_amount_factor != 0 ) {
2709 const time_duration decay_amount = amount / decay_amount_factor;
2710 cur.set_field_age( cur.get_field_age() + decay_amount );
2711 }
2712 }
2713 }
2714 }
2715
2716 if( to_proc > 0 ) {
2717 cur_submap->field_count = cur_submap->field_count - to_proc;
2718 dbg( DL::Error ) << "map::decay_fields_and_scent: submap at "
2719 << abs_sub + tripoint( smx, smy, 0 )
2720 << "has " << cur_submap->field_count - to_proc << "fields, but "
2721 << cur_submap->field_count << " field_count";
2722 }
2723 }
2724 }
2725}
time_duration set_field_age(const time_duration &new_age)
Sets age to the given value.
Definition: field.cpp:138
time_duration get_field_age() const
Definition: field.cpp:133
@ Error
Error (default: enabled).

References abs_sub, dbg, Error, level_cache::field_cache, submap::field_count, g, get_cache(), get_cache_ref(), field_entry::get_field_age(), field_entry::get_field_type(), get_submap_at_grid(), MAPSIZE, my_MAPSIZE, level_cache::outside_cache, SEEX, SEEY, field_entry::set_field_age(), sx, sy, type, and tripoint::z.

◆ delete_graffiti()

void map::delete_graffiti ( const tripoint p)

Definition at line 7800 of file map.cpp.

7801{
7802 if( !inbounds( p ) ) {
7803 return;
7804 }
7805 point l;
7806 submap *const current_submap = get_submap_at( p, l );
7807 current_submap->delete_graffiti( l );
7808}
void delete_graffiti(const point &p)
Definition: submap.cpp:109

References submap::delete_graffiti(), get_submap_at(), and inbounds().

◆ delete_signage()

void map::delete_signage ( const tripoint p) const

Definition at line 4003 of file map.cpp.

4004{
4005 if( !inbounds( p ) ) {
4006 return;
4007 }
4008
4009 point l;
4010 submap *const current_submap = get_submap_at( p, l );
4011
4012 current_submap->delete_signage( l );
4013}
void delete_signage(const point &p)
Definition: submap.cpp:148

References submap::delete_signage(), get_submap_at(), and inbounds().

Referenced by bash_furn_success(), construct::done_deconstruct(), and talk_function::loot_building().

◆ deregister_vehicle_zone()

bool map::deregister_vehicle_zone ( zone_data zone)

Definition at line 960 of file map.cpp.

961{
963 zone.get_start_point() ) ).part_with_feature( "CARGO", false ) ) {
964 auto bounds = vp->vehicle().loot_zones.equal_range( vp->mount() );
965 for( auto it = bounds.first; it != bounds.second; it++ ) {
966 if( &zone == &( it->second ) ) {
967 vp->vehicle().loot_zones.erase( it );
968 return true;
969 }
970 }
971 }
972 return false;
973}
tripoint getlocal(const tripoint &p) const
Inverse of getabs.
Definition: map.cpp:8254
tripoint get_start_point() const
Definition: clzones.h:314

References zone_data::get_start_point(), getlocal(), optional_vpart_position::part_with_feature(), and veh_at().

◆ destroy()

void map::destroy ( const tripoint p,
bool  silent = false 
)

Keeps bashing a square until it can't be bashed anymore.

Definition at line 3619 of file map.cpp.

3620{
3621 // Break if it takes more than 25 destructions to remove to prevent infinite loops
3622 // Example: A bashes to B, B bashes to A leads to A->B->A->...
3623
3624 // If we were destroying a floor, allow destroying floors
3625 // If we were destroying something unpassable, destroy only that
3626 bool was_impassable = impassable( p );
3627 int count = 0;
3628 while( count <= 25
3629 && bash( p, 999, silent, true ).success
3630 && ( !was_impassable || impassable( p ) ) ) {
3631 count++;
3632 }
3633}

References bash(), detail::count(), impassable(), silent, and behavior::success.

Referenced by add_vehicle_to_map(), bash(), MapExtras::burned_ground_parser(), activity_handlers::burrow_finish(), collapse_at(), draw_lab(), activity_handlers::jackhammer_finish(), make_rubble(), MapExtras::mx_crater(), MapExtras::mx_helicopter(), MapExtras::mx_supplydrop(), om_cutdown_trees(), activity_handlers::pickaxe_finish(), process_fields_in_submap(), and explosion_handler::explosion_funcs::resonance_cascade().

◆ destroy_furn()

void map::destroy_furn ( const tripoint p,
bool  silent = false 
)

Keeps bashing a square until there is no more furniture.

Definition at line 3635 of file map.cpp.

3636{
3637 // Break if it takes more than 25 destructions to remove to prevent infinite loops
3638 // Example: A bashes to B, B bashes to A leads to A->B->A->...
3639 int count = 0;
3640 while( count <= 25 && furn( p ) != f_null && bash( p, 999, silent, true ).success ) {
3641 count++;
3642 }
3643}

References bash(), detail::count(), f_null, furn(), silent, and behavior::success.

Referenced by construct::done_grave(), and make_rubble().

◆ destroy_vehicle()

◆ detach_vehicle()

std::unique_ptr< vehicle > map::detach_vehicle ( vehicle veh)

Definition at line 352 of file map.cpp.

353{
354 if( veh == nullptr ) {
355 debugmsg( "map::detach_vehicle was passed nullptr" );
356 return std::unique_ptr<vehicle>();
357 }
358
359 int z = veh->sm_pos.z;
360 if( z < -OVERMAP_DEPTH || z > OVERMAP_HEIGHT ) {
361 debugmsg( "detach_vehicle got a vehicle outside allowed z-level range! name=%s, submap:%d,%d,%d",
362 veh->name, veh->sm_pos.x, veh->sm_pos.y, veh->sm_pos.z );
363 // Try to fix by moving the vehicle here
364 z = veh->sm_pos.z = abs_sub.z;
365 }
366
367 // Unboard all passengers before detaching
368 for( auto const &part : veh->get_avail_parts( VPFLAG_BOARDABLE ) ) {
369 player *passenger = part.get_passenger();
370 if( passenger ) {
371 unboard_vehicle( part, passenger );
372 }
373 }
374 veh->invalidate_towing( true );
375 submap *const current_submap = get_submap_at_grid( veh->sm_pos );
376 level_cache &ch = get_cache( z );
377 for( size_t i = 0; i < current_submap->vehicles.size(); i++ ) {
378 if( current_submap->vehicles[i].get() == veh ) {
379 ch.vehicle_list.erase( veh );
380 ch.zone_vehicles.erase( veh );
382 std::unique_ptr<vehicle> result = std::move( current_submap->vehicles[i] );
383 current_submap->vehicles.erase( current_submap->vehicles.begin() + i );
384 if( veh->tracking_on ) {
386 }
387 dirty_vehicle_list.erase( veh );
388 veh->detach();
389 veh->refresh_position();
390 return result;
391 }
392 }
393 debugmsg( "detach_vehicle can't find it! name=%s, submap:%d,%d,%d", veh->name, veh->sm_pos.x,
394 veh->sm_pos.y, veh->sm_pos.z );
395 return std::unique_ptr<vehicle>();
396}
std::set< vehicle * > dirty_vehicle_list
Definition: map.h:1644
void reset_vehicle_cache()
Definition: map.cpp:252
void remove_vehicle(const vehicle *veh)
Remove the vehicle from being tracked in the overmap.
std::string name
Definition: vehicle.h:1849
void refresh_position()
Definition: vehicle.cpp:5815
bool tracking_on
Definition: vehicle.h:1991
void invalidate_towing(bool first_vehicle=false)
Definition: vehicle.cpp:6129
void detach()
Definition: vehicle.h:768
std::set< vehicle * > zone_vehicles
Definition: map.h:363
std::set< vehicle * > vehicle_list
Definition: map.h:362

References abs_sub, debugmsg, vehicle::detach(), dirty_vehicle_list, vehicle::get_avail_parts(), get_cache(), get_submap_at_grid(), vehicle::invalidate_towing(), avatar_action::move(), vehicle::name, overmap_buffer, OVERMAP_HEIGHT, vehicle::refresh_position(), overmapbuffer::remove_vehicle(), reset_vehicle_cache(), vehicle::sm_pos, vehicle::tracking_on, unboard_vehicle(), level_cache::vehicle_list, submap::vehicles, VPFLAG_BOARDABLE, tripoint::x, tripoint::y, tripoint::z, and level_cache::zone_vehicles.

Referenced by add_vehicle_to_map(), destroy_vehicle(), and editmap::mapgen_veh_destroy().

◆ determine_wall_corner()

int map::determine_wall_corner ( const tripoint p) const
private

Definition at line 7831 of file map.cpp.

7832{
7833 int test_connect_group = ter( p ).obj().connect_group;
7834 uint8_t connections = get_known_connections( p, test_connect_group );
7835 // The bits in connections are SEWN, whereas the characters in LINE_
7836 // constants are NESW, so we want values in 8 | 2 | 1 | 4 order.
7837 switch( connections ) {
7838 case 8 | 2 | 1 | 4:
7839 return LINE_XXXX;
7840 case 0 | 2 | 1 | 4:
7841 return LINE_OXXX;
7842
7843 case 8 | 0 | 1 | 4:
7844 return LINE_XOXX;
7845 case 0 | 0 | 1 | 4:
7846 return LINE_OOXX;
7847
7848 case 8 | 2 | 0 | 4:
7849 return LINE_XXOX;
7850 case 0 | 2 | 0 | 4:
7851 return LINE_OXOX;
7852 case 8 | 0 | 0 | 4:
7853 return LINE_XOOX;
7854 case 0 | 0 | 0 | 4:
7855 return LINE_OXOX; // LINE_OOOX would be better
7856
7857 case 8 | 2 | 1 | 0:
7858 return LINE_XXXO;
7859 case 0 | 2 | 1 | 0:
7860 return LINE_OXXO;
7861 case 8 | 0 | 1 | 0:
7862 return LINE_XOXO;
7863 case 0 | 0 | 1 | 0:
7864 return LINE_XOXO; // LINE_OOXO would be better
7865 case 8 | 2 | 0 | 0:
7866 return LINE_XXOO;
7867 case 0 | 2 | 0 | 0:
7868 return LINE_OXOX; // LINE_OXOO would be better
7869 case 8 | 0 | 0 | 0:
7870 return LINE_XOXO; // LINE_XOOO would be better
7871
7872 case 0 | 0 | 0 | 0:
7873 return ter( p ).obj().symbol(); // technically just a column
7874
7875 default:
7876 // assert( false );
7877 // this shall not happen
7878 return '?';
7879 }
7880}
uint8_t get_known_connections(const tripoint &p, int connect_group, const std::map< tripoint, ter_id > &override={}) const
Definition: map.cpp:1507
generic_factory< overmap_connection > connections("overmap connection")
#define LINE_XOXX
Definition: output.h:47
#define LINE_XOXO
Definition: output.h:39
#define LINE_OXOX
Definition: output.h:40
#define LINE_OOXX
Definition: output.h:43
#define LINE_OXXX
Definition: output.h:48
#define LINE_XXXO
Definition: output.h:45
#define LINE_XXOX
Definition: output.h:46
#define LINE_OXXO
Definition: output.h:42
#define LINE_XOOX
Definition: output.h:44
#define LINE_XXOO
Definition: output.h:41
#define LINE_XXXX
Definition: output.h:49
int symbol() const
Definition: mapdata.cpp:550

References map_data_common_t::connect_group, anonymous_namespace{overmap_connection.cpp}::connections, get_known_connections(), LINE_OOXX, LINE_OXOX, LINE_OXXO, LINE_OXXX, LINE_XOOX, LINE_XOXO, LINE_XOXX, LINE_XXOO, LINE_XXOX, LINE_XXXO, LINE_XXXX, int_id< T >::obj(), map_data_common_t::symbol(), and ter().

Referenced by draw_from_above(), and draw_maptile().

◆ disarm_trap()

void map::disarm_trap ( const tripoint p)
Perception increases chance of disarming trap Dexterity increases chance of disarming trap Traps increases chance of disarming trap

Definition at line 5195 of file map.cpp.

5196{
5197 const trap &tr = tr_at( p );
5198 if( tr.is_null() ) {
5199 debugmsg( "Tried to disarm a trap where there was none (%d %d %d)", p.x, p.y, p.z );
5200 return;
5201 }
5202
5203 const int tSkillLevel = g->u.get_skill_level( skill_traps );
5204 const int diff = tr.get_difficulty();
5205 int roll = rng( tSkillLevel, 4 * tSkillLevel );
5206
5207 // Some traps are not actual traps. Skip the rolls, different message and give the option to grab it right away.
5208 if( tr.get_avoidance() == 0 && tr.get_difficulty() == 0 ) {
5209 add_msg( _( "The %s is taken down." ), tr.name() );
5210 tr.on_disarmed( *this, p );
5211 return;
5212 }
5213
5214 ///\EFFECT_PER increases chance of disarming trap
5215
5216 ///\EFFECT_DEX increases chance of disarming trap
5217
5218 ///\EFFECT_TRAPS increases chance of disarming trap
5219 while( ( rng( 5, 20 ) < g->u.per_cur || rng( 1, 20 ) < g->u.dex_cur ) && roll < 50 ) {
5220 roll++;
5221 }
5222 if( roll >= diff ) {
5223 add_msg( _( "You disarm the trap!" ) );
5224 const int morale_buff = tr.get_avoidance() * 0.4 + tr.get_difficulty() + rng( 0, 4 );
5225 g->u.rem_morale( MORALE_FAILURE );
5226 g->u.add_morale( MORALE_ACCOMPLISHMENT, morale_buff, 40 );
5227 tr.on_disarmed( *this, p );
5228 if( diff > 1.25 * tSkillLevel ) { // failure might have set off trap
5229 g->u.practice( skill_traps, 1.5 * ( diff - tSkillLevel ) );
5230 }
5231 } else if( roll >= diff * .8 ) {
5232 add_msg( _( "You fail to disarm the trap." ) );
5233 const int morale_debuff = -rng( 6, 18 );
5234 g->u.rem_morale( MORALE_ACCOMPLISHMENT );
5235 g->u.add_morale( MORALE_FAILURE, morale_debuff, -40 );
5236 if( diff > 1.25 * tSkillLevel ) {
5237 g->u.practice( skill_traps, 1.5 * ( diff - tSkillLevel ) );
5238 }
5239 } else {
5240 add_msg( m_bad, _( "You fail to disarm the trap, and you set it off!" ) );
5241 const int morale_debuff = -rng( 12, 24 );
5242 g->u.rem_morale( MORALE_ACCOMPLISHMENT );
5243 g->u.add_morale( MORALE_FAILURE, morale_debuff, -40 );
5244 tr.trigger( p, &g->u );
5245 if( diff - roll <= 6 ) {
5246 // Give xp for failing, but not if we failed terribly (in which
5247 // case the trap may not be disarmable).
5248 g->u.practice( skill_traps, 2 * diff );
5249 }
5250 }
5251}
static const skill_id skill_traps("traps")
void add_msg(std::string msg)
Definition: messages.cpp:884
const morale_type MORALE_FAILURE("morale_failure")
const morale_type MORALE_ACCOMPLISHMENT("morale_accomplishment")
Definition: trap.h:86
std::string name() const
Definition: trap.cpp:177
int get_avoidance() const
Whether triggering the trap can be avoid (if greater than 0) and if so, this is compared to dodge ski...
Definition: trap.h:144
void trigger(const tripoint &pos, Creature *creature=nullptr, item *item=nullptr) const
Trigger trap effects.
Definition: trap.cpp:232
bool is_null() const
Whether this is the null-traps, aka no trap at all.
Definition: trap.cpp:245
void on_disarmed(map &m, const tripoint &p) const
Called when a trap at the given point in the map has been disarmed.
Definition: trap.cpp:260
int get_difficulty() const
This is used when disarming the trap.
Definition: trap.h:152

References _, add_msg(), debugmsg, g, trap::get_avoidance(), trap::get_difficulty(), trap::is_null(), m_bad, MORALE_ACCOMPLISHMENT, MORALE_FAILURE, trap::name(), trap::on_disarmed(), rng(), skill_traps, tr_at(), trap::trigger(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by iexamine::trap().

◆ disp_name()

std::string map::disp_name ( const tripoint p)

Definition at line 1327 of file map.cpp.

1328{
1329 return string_format( _( "the %s" ), name( p ) );
1330}

References _, name(), and string_format().

Referenced by vehicle::part_collision().

◆ displace_vehicle()

bool map::displace_vehicle ( vehicle veh,
const tripoint dp 
)

Definition at line 1116 of file map.cpp.

1117{
1118 const tripoint src = veh.global_pos3();
1119
1120 tripoint dst = src + dp;
1121
1122 if( !inbounds( src ) ) {
1123 add_msg( m_debug, "map::displace_vehicle: coordinates out of bounds %d,%d,%d->%d,%d,%d",
1124 src.x, src.y, src.z, dst.x, dst.y, dst.z );
1125 return false;
1126 }
1127
1128 point src_offset;
1129 point dst_offset;
1130 submap *src_submap = get_submap_at( src, src_offset );
1131 submap *dst_submap = get_submap_at( dst, dst_offset );
1132 std::set<int> smzs;
1133
1134 // first, let's find our position in current vehicles vector
1135 size_t our_i = 0;
1136 bool found = false;
1137 for( auto &smap : grid ) {
1138 for( size_t i = 0; i < smap->vehicles.size(); i++ ) {
1139 if( smap->vehicles[i].get() == &veh ) {
1140 our_i = i;
1141 src_submap = smap;
1142 found = true;
1143 break;
1144 }
1145 }
1146 if( found ) {
1147 break;
1148 }
1149 }
1150
1151 if( !found ) {
1152 add_msg( m_debug, "displace_vehicle [%s] failed", veh.name );
1153 return false;
1154 }
1155
1156 // move the vehicle
1157 // don't let it go off grid
1158 if( !inbounds( dst ) ) {
1159 veh.stop();
1160 // Silent debug
1161 dbg( DL::Error ) << "map:displace_vehicle: Stopping vehicle, displaced dp=" << dp;
1162 return true;
1163 }
1164
1165 // Need old coordinates to check for remote control
1166 const bool remote = veh.remote_controlled( g->u );
1167
1168 // record every passenger and pet inside
1169 std::vector<rider_data> riders = veh.get_riders();
1170
1171 bool need_update = false;
1172 bool z_change = false;
1173 int z_to = 0;
1174 // Move passengers and pets
1175 bool complete = false;
1176 // loop until everyone has moved or for each passenger
1177 for( size_t i = 0; !complete && i < riders.size(); i++ ) {
1178 complete = true;
1179 for( rider_data &r : riders ) {
1180 if( r.moved ) {
1181 continue;
1182 }
1183 const int prt = r.prt;
1184
1185 Creature *psg = r.psg;
1186 const tripoint part_pos = veh.global_part_pos3( prt );
1187 if( psg == nullptr ) {
1188 debugmsg( "Empty passenger for part #%d at %d,%d,%d player at %d,%d,%d?",
1189 prt, part_pos.x, part_pos.y, part_pos.z,
1190 g->u.posx(), g->u.posy(), g->u.posz() );
1192 r.moved = true;
1193 continue;
1194 }
1195
1196 if( psg->pos() != part_pos ) {
1197 add_msg( m_debug, "Part/passenger position mismatch: part #%d at %d,%d,%d "
1198 "passenger at %d,%d,%d", prt, part_pos.x, part_pos.y, part_pos.z,
1199 psg->posx(), psg->posy(), psg->posz() );
1200 }
1201 const vehicle_part &veh_part = veh.part( prt );
1202
1203 tripoint next_pos = veh_part.precalc[1];
1204
1205 // Place passenger on the new part location
1206 tripoint psgp( dst + next_pos );
1207 // someone is in the way so try again
1208 if( g->critter_at( psgp ) ) {
1209 complete = false;
1210 continue;
1211 }
1212 if( psg->is_avatar() ) {
1213 // If passenger is you, we need to update the map
1214 need_update = true;
1215 z_change = psgp.z != part_pos.z;
1216 z_to = psgp.z;
1217 }
1218
1219 psg->setpos( psgp );
1220 r.moved = true;
1221 }
1222 }
1223
1224 veh.shed_loose_parts();
1225 smzs = veh.advance_precalc_mounts( dst_offset, src );
1226 if( src_submap != dst_submap ) {
1227 veh.set_submap_moved( tripoint( dst.x / SEEX, dst.y / SEEY, dst.z ) );
1228 auto src_submap_veh_it = src_submap->vehicles.begin() + our_i;
1229 dst_submap->vehicles.push_back( std::move( *src_submap_veh_it ) );
1230 src_submap->vehicles.erase( src_submap_veh_it );
1231 dst_submap->is_uniform = false;
1233 }
1234 if( need_update ) {
1235 g->update_map( g->u );
1236 }
1237 add_vehicle_to_cache( &veh );
1238
1239 if( z_change || src.z != dst.z ) {
1240 if( z_change ) {
1241 g->vertical_shift( z_to );
1242 // vertical moves can flush the caches, so make sure we're still in the cache
1243 add_vehicle_to_cache( &veh );
1244 }
1245 update_vehicle_list( dst_submap, dst.z );
1246 // delete the vehicle from the source z-level vehicle cache set if it is no longer on
1247 // that z-level
1248 if( src.z != dst.z ) {
1249 level_cache &ch2 = get_cache( src.z );
1250 for( const vehicle *elem : ch2.vehicle_list ) {
1251 if( elem == &veh ) {
1252 ch2.vehicle_list.erase( &veh );
1253 ch2.zone_vehicles.erase( &veh );
1254 break;
1255 }
1256 }
1257 }
1259 }
1260
1261 if( remote ) {
1262 // Has to be after update_map or coordinates won't be valid
1263 g->setremoteveh( &veh );
1264 }
1265
1266 //
1267 //global positions of vehicle loot zones have changed.
1268 veh.zones_dirty = true;
1269
1270 for( int vsmz : smzs ) {
1271 on_vehicle_moved( dst.z + vsmz );
1272 }
1273 return true;
1274}
virtual int posy() const =0
virtual int posz() const =0
virtual void setpos(const tripoint &pos)=0
virtual bool is_avatar() const
Definition: creature.h:95
virtual int posx() const =0
void on_vehicle_moved(int smz)
Callback invoked when a vehicle has moved.
Definition: map.cpp:403
void update_vehicle_list(const submap *to, int zlev)
Definition: map.cpp:338
tripoint global_pos3() const
Definition: vehicle.cpp:3281
bool check_is_heli_landed()
void shed_loose_parts()
Definition: vehicle.cpp:6257
std::vector< rider_data > get_riders() const
Definition: vehicle.cpp:3238
void stop(bool update_cache=true)
std::set< int > advance_precalc_mounts(const point &new_pos, const tripoint &src)
Definition: vehicle.cpp:7095
bool remote_controlled(const Character &p) const
Definition: vehicle.cpp:297
void set_submap_moved(const tripoint &p)
Update the submap coordinates and update the tracker info in the overmap (if enabled).
Definition: vehicle.cpp:3296
bool zones_dirty
Definition: vehicle.h:2007
@ m_debug
Definition: enums.h:264
Structure, describing vehicle part (i.e., wheel, seat)
Definition: vehicle.h:185
std::array< tripoint, 2 > precalc
mount translated to face.dir [0] and turn_dir [1]
Definition: vehicle.h:371
int remove_flag(const int flag) noexcept
Definition: vehicle.h:214

References add_msg(), add_vehicle_to_cache(), vehicle::advance_precalc_mounts(), vehicle::check_is_heli_landed(), dbg, debugmsg, Error, g, get_cache(), vehicle::get_riders(), get_submap_at(), vehicle::global_part_pos3(), vehicle::global_pos3(), grid, inbounds(), invalidate_max_populated_zlev(), Creature::is_avatar(), submap::is_uniform, m_debug, avatar_action::move(), vehicle::name, on_vehicle_moved(), vehicle::part(), vehicle_part::passenger_flag, Creature::pos(), Creature::posx(), Creature::posy(), Creature::posz(), vehicle_part::precalc, vehicle::remote_controlled(), vehicle_part::remove_flag(), SEEX, SEEY, vehicle::set_submap_moved(), Creature::setpos(), vehicle::shed_loose_parts(), vehicle::stop(), update_vehicle_list(), level_cache::vehicle_list, submap::vehicles, tripoint::x, tripoint::y, tripoint::z, level_cache::zone_vehicles, and vehicle::zones_dirty.

Referenced by game::grabbed_veh_move(), and move_vehicle().

◆ displace_water()

bool map::displace_water ( const tripoint dp)

Definition at line 1276 of file map.cpp.

1277{
1278 // Check for shallow water
1279 if( has_flag( "SWIMMABLE", p ) && !has_flag( TFLAG_DEEP_WATER, p ) ) {
1280 int dis_places = 0;
1281 int sel_place = 0;
1282 for( int pass = 0; pass < 2; pass++ ) {
1283 // we do 2 passes.
1284 // first, count how many non-water places around
1285 // then choose one within count and fill it with water on second pass
1286 if( pass != 0 ) {
1287 sel_place = rng( 0, dis_places - 1 );
1288 dis_places = 0;
1289 }
1290 for( const tripoint &temp : points_in_radius( p, 1 ) ) {
1291 if( temp != p
1292 || impassable_ter_furn( temp )
1293 || has_flag( TFLAG_DEEP_WATER, temp ) ) {
1294 continue;
1295 }
1296 ter_id ter0 = ter( temp );
1297 if( ter0 == t_water_sh ||
1298 ter0 == t_water_dp || ter0 == t_water_moving_sh || ter0 == t_water_moving_dp ) {
1299 continue;
1300 }
1301 if( pass != 0 && dis_places == sel_place ) {
1302 ter_set( temp, t_water_sh );
1303 ter_set( temp, t_dirt );
1304 return true;
1305 }
1306
1307 dis_places++;
1308 }
1309 }
1310 }
1311 return false;
1312}
ter_id t_water_moving_dp
Definition: mapdata.cpp:693
ter_id t_water_moving_sh
Definition: mapdata.cpp:693
ter_id t_water_dp
Definition: mapdata.cpp:693
ter_id t_water_sh
Definition: mapdata.cpp:693

References has_flag(), impassable_ter_furn(), points_in_radius(), rng(), t_dirt, t_water_dp, t_water_moving_dp, t_water_moving_sh, t_water_sh, ter(), ter_set(), and TFLAG_DEEP_WATER.

Referenced by move_vehicle().

◆ do_vehicle_caching()

void map::do_vehicle_caching ( int  z)

Definition at line 8186 of file map.cpp.

8187{
8188 level_cache &ch = get_cache( z );
8189 for( vehicle *v : ch.vehicle_list ) {
8190 for( const vpart_reference &vp : v->get_all_parts() ) {
8191 const tripoint &part_pos = v->global_part_pos3( vp.part() );
8192 if( !inbounds( part_pos.xy() ) || vp.part().removed ) {
8193 continue;
8194 }
8195 vehicle_caching_internal( get_cache( part_pos.z ), vp, v );
8196 if( part_pos.z < OVERMAP_HEIGHT ) {
8197 vehicle_caching_internal_above( get_cache( part_pos.z + 1 ), vp, v );
8198 }
8199 }
8200 }
8201}
static void vehicle_caching_internal_above(level_cache &zch_above, const vpart_reference &vp, vehicle *v)
Definition: map.cpp:8177
static void vehicle_caching_internal(level_cache &zch, const vpart_reference &vp, vehicle *v)
Definition: map.cpp:8110

References vehicle::get_all_parts(), get_cache(), vehicle::global_part_pos3(), inbounds(), OVERMAP_HEIGHT, vehicle_caching_internal(), vehicle_caching_internal_above(), level_cache::vehicle_list, tripoint::xy(), and tripoint::z.

Referenced by build_map_cache().

◆ dont_draw_lower_floor()

bool map::dont_draw_lower_floor ( const tripoint p)

Definition at line 5851 of file map.cpp.

5852{
5853 return !zlevels || p.z <= -OVERMAP_DEPTH ||
5855}
@ TFLAG_Z_TRANSPARENT
Definition: mapdata.h:321

References has_flag(), OVERMAP_DEPTH, TFLAG_NO_FLOOR, TFLAG_Z_TRANSPARENT, tripoint::z, and zlevels.

◆ draw()

void map::draw ( const catacurses::window w,
const tripoint center 
)

Draw a visible part of the map into w.

This method uses g->u.posx()/posy() for visibility calculations, so it can not be used for anything but the player's viewport. Likewise, only g->m and maps with equivalent coordinates can be used, as other maps would have coordinate systems incompatible with g->u.posx()

Parameters
wWindow we are drawing in
centerThe coordinate of the center of the viewport, this can be different from the player coordinate.

Definition at line 5692 of file map.cpp.

5693{
5694 // We only need to draw anything if we're not in tiles mode.
5695 if( is_draw_tiles_mode() ) {
5696 return;
5697 }
5698
5699 g->reset_light_level();
5700
5703
5704 const auto &visibility_cache = get_cache_ref( center.z ).visibility_cache;
5705
5706 int wnd_h = getmaxy( w );
5707 int wnd_w = getmaxx( w );
5708 const tripoint offs = center - tripoint( wnd_w / 2, wnd_h / 2, 0 );
5709
5710 // Map memory should be at least the size of the view range
5711 // so that new tiles can be memorized, and at least the size of the terminal
5712 // since displayed area may be bigger than view range.
5713 const point min_mm_reg = point(
5714 std::min( 0, offs.x ),
5715 std::min( 0, offs.y )
5716 );
5717 const point max_mm_reg = point(
5718 std::max( MAPSIZE_X, offs.x + wnd_w ),
5719 std::max( MAPSIZE_Y, offs.y + wnd_h )
5720 );
5721 g->u.prepare_map_memory_region(
5722 g->m.getabs( tripoint( min_mm_reg, center.z ) ),
5723 g->m.getabs( tripoint( max_mm_reg, center.z ) )
5724 );
5725
5726 const auto draw_background = [&]( const tripoint & p ) {
5727 int sym = ' ';
5728 nc_color col = c_black;
5729 if( has_memory_at( p ) ) {
5730 sym = get_memory_at( p );
5731 col = c_brown;
5732 }
5733 wputch( w, col, sym );
5734 };
5735
5736 const auto draw_vision_effect = [&]( const visibility_type vis ) -> bool {
5737 int sym = '#';
5738 nc_color col;
5739 switch( vis )
5740 {
5741 case VIS_LIT:
5742 // can only tell that this square is bright
5743 col = c_light_gray;
5744 break;
5745 case VIS_BOOMER:
5746 col = c_pink;
5747 break;
5748 case VIS_BOOMER_DARK:
5749 col = c_magenta;
5750 break;
5751 default:
5752 return false;
5753 }
5754 wputch( w, col, sym );
5755 return true;
5756 };
5757
5758 drawsq_params params = drawsq_params().memorize( true );
5759 for( int wy = 0; wy < wnd_h; wy++ ) {
5760 for( int wx = 0; wx < wnd_w; wx++ ) {
5761 wmove( w, point( wx, wy ) );
5762 const tripoint p = offs + tripoint( wx, wy, 0 );
5763 if( !inbounds( p ) ) {
5764 draw_background( p );
5765 continue;
5766 }
5767
5768 const lit_level lighting = visibility_cache[p.x][p.y];
5769 const visibility_type vis = get_visibility( lighting, cache );
5770
5771 if( draw_vision_effect( vis ) ) {
5772 continue;
5773 }
5774
5775 if( vis == VIS_HIDDEN || vis == VIS_DARK ) {
5776 draw_background( p );
5777 continue;
5778 }
5779
5780 const maptile curr_maptile = maptile_at_internal( p );
5781 params
5782 .low_light( lighting == lit_level::LOW )
5783 .bright_light( lighting == lit_level::BRIGHT );
5784 if( draw_maptile( w, p, curr_maptile, params ) ) {
5785 continue;
5786 }
5787 const maptile tile_below = maptile_at_internal( p - tripoint_above );
5788 draw_from_above( w, tripoint( p.xy(), p.z - 1 ), tile_below, params );
5789 }
5790 }
5791
5792 // Memorize off-screen tiles
5793 half_open_rectangle<point> display( offs.xy(), offs.xy() + point( wnd_w, wnd_h ) );
5794 drawsq_params mm_params = drawsq_params().memorize( true ).output( false );
5795 for( int y = 0; y < MAPSIZE_Y; y++ ) {
5796 for( int x = 0; x < MAPSIZE_X; x++ ) {
5797 const tripoint p( x, y, center.z );
5798 if( display.contains( p.xy() ) ) {
5799 // Have been memorized during display loop
5800 continue;
5801 }
5802
5803 const lit_level lighting = visibility_cache[p.x][p.y];
5804 const visibility_type vis = get_visibility( lighting, cache );
5805
5806 if( vis != VIS_CLEAR ) {
5807 continue;
5808 }
5809
5810 const maptile curr_maptile = maptile_at_internal( p );
5811 mm_params
5812 .low_light( lighting == lit_level::LOW )
5813 .bright_light( lighting == lit_level::BRIGHT );
5814
5815 draw_maptile( w, p, curr_maptile, mm_params );
5816 }
5817 }
5818}
bool draw_maptile(const catacurses::window &w, const tripoint &p, const maptile &tile, const drawsq_params &params) const
Internal version of the drawsq.
Definition: map.cpp:5857
visibility_type get_visibility(lit_level ll, const visibility_variables &cache) const
Definition: map.cpp:5642
void draw_from_above(const catacurses::window &w, const tripoint &p, const maptile &tile, const drawsq_params &params) const
Draws the tile as seen from above.
Definition: map.cpp:6048
const visibility_variables & get_visibility_variables_cache() const
Definition: map.cpp:5637
void update_visibility_cache(int zlev)
Definition: map.cpp:5588
maptile maptile_at_internal(const tripoint &p) const
Definition: map.cpp:217
#define c_light_gray
Definition: color.h:19
#define c_black
Definition: color.h:17
#define c_magenta
Definition: color.h:25
#define c_brown
Definition: color.h:26
#define c_pink
Definition: color.h:31
visibility_type
Definition: enums.h:57
@ VIS_CLEAR
Definition: enums.h:59
@ VIS_BOOMER
Definition: enums.h:61
@ VIS_DARK
Definition: enums.h:62
@ VIS_BOOMER_DARK
Definition: enums.h:63
@ VIS_HIDDEN
Definition: enums.h:58
@ VIS_LIT
Definition: enums.h:60
lit_level
Definition: lightmap.h:43
static bool has_memory_at(const tripoint &p)
Definition: map.cpp:5675
static int get_memory_at(const tripoint &p)
Definition: map.cpp:5684
int getmaxx(const window &win)
Definition: ncurses_def.cpp:58
int getmaxy(const window &win)
Definition: ncurses_def.cpp:63
void wmove(const window &win, const point &p)
Definition: ncurses_def.cpp:98
static tripoint_abs_omt display(const tripoint_abs_omt &orig, const draw_data_t &data=draw_data_t())
bool is_draw_tiles_mode()
Check whether we're in tile drawing mode.
Definition: output.cpp:2029
void wputch(const catacurses::window &w, nc_color FG, int ch)
Definition: output.cpp:470
static constexpr tripoint tripoint_above
Definition: point.h:294
Draw parameters used by map::drawsq() and similar methods.
Definition: map.h:180
constexpr drawsq_params & bright_light(bool v)
Whether tile is in bright light.
Definition: map.h:240
constexpr drawsq_params & output(bool v)
HACK: Whether the tile should be printed.
Definition: map.h:269
constexpr drawsq_params & memorize(bool v)
Whether the tile should be memorized.
Definition: map.h:254
constexpr drawsq_params & low_light(bool v)
Whether tile is low light, and should be drawn with muted color.
Definition: map.h:226
lit_level visibility_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:355
A wrapper for a submap point.
Definition: submap.h:267

References BRIGHT, drawsq_params::bright_light(), c_black, c_brown, c_light_gray, c_magenta, c_pink, center, overmap_ui::display(), draw_from_above(), draw_maptile(), g, get_cache_ref(), get_memory_at(), get_visibility(), get_visibility_variables_cache(), catacurses::getmaxx(), catacurses::getmaxy(), has_memory_at(), inbounds(), is_draw_tiles_mode(), LOW, drawsq_params::low_light(), MAPSIZE_X, MAPSIZE_Y, maptile_at_internal(), drawsq_params::memorize(), drawsq_params::output(), tripoint_above, update_visibility_cache(), VIS_BOOMER, VIS_BOOMER_DARK, VIS_CLEAR, VIS_DARK, VIS_HIDDEN, VIS_LIT, level_cache::visibility_cache, catacurses::wmove(), wputch(), tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by advanced_inventory::draw_minimap(), and game::draw_ter().

◆ draw_anthill()

void map::draw_anthill ( mapgendata dat)
protected

Definition at line 5025 of file mapgen.cpp.

5026{
5027 const oter_id &terrain_type = dat.terrain_type();
5028 if( terrain_type == "anthill" || terrain_type == "acid_anthill" ) {
5029 for( int i = 0; i < SEEX * 2; i++ ) {
5030 for( int j = 0; j < SEEY * 2; j++ ) {
5031 if( i < 8 || j < 8 || i > SEEX * 2 - 9 || j > SEEY * 2 - 9 ) {
5032 ter_set( point( i, j ), dat.groundcover() );
5033 } else if( ( i == 11 || i == 12 ) && ( j == 11 || j == 12 ) ) {
5034 ter_set( point( i, j ), t_slope_down );
5035 } else {
5036 ter_set( point( i, j ), t_dirtmound );
5037 }
5038 }
5039 }
5040 }
5041}
const oter_id & terrain_type() const
Definition: mapgendata.h:87
ter_id groundcover()
Definition: mapgendata.cpp:141
ter_id t_slope_down
Definition: mapdata.cpp:718
ter_id t_dirtmound
Definition: mapdata.cpp:625

References mapgendata::groundcover(), SEEX, SEEY, t_dirtmound, t_slope_down, ter_set(), and mapgendata::terrain_type().

Referenced by draw_map().

◆ draw_circle_furn()

void map::draw_circle_furn ( const furn_id type,
const point p,
int  rad 
)

Definition at line 8427 of file map.cpp.

8428{
8429 draw_circle( [this, type]( const point & q ) {
8430 this->furn_set( q, type );
8431 }, p, rad );
8432}
void draw_circle(std::function< void(const point &)>set, const rl_vec2d &p, double rad)

References draw_circle(), furn_set(), and type.

Referenced by circle_furn().

◆ draw_circle_ter() [1/2]

void map::draw_circle_ter ( const ter_id type,
const point p,
int  rad 
)

Definition at line 8420 of file map.cpp.

8421{
8422 draw_circle( [this, type]( const point & q ) {
8423 this->ter_set( q, type );
8424 }, p, rad );
8425}

References draw_circle(), ter_set(), and type.

◆ draw_circle_ter() [2/2]

void map::draw_circle_ter ( const ter_id type,
const rl_vec2d p,
double  rad 
)

Definition at line 8413 of file map.cpp.

8414{
8415 draw_circle( [this, type]( const point & q ) {
8416 this->ter_set( q, type );
8417 }, p, rad );
8418}

References draw_circle(), ter_set(), and type.

Referenced by circle().

◆ draw_connections()

void map::draw_connections ( mapgendata dat)
protected

Definition at line 5235 of file mapgen.cpp.

5236{
5237 const oter_id &terrain_type = dat.terrain_type();
5238 if( is_ot_match( "subway", terrain_type,
5239 ot_match_type::type ) ) { // FUUUUU it's IF ELIF ELIF ELIF's mini-me =[
5240 if( is_ot_match( "sewer", dat.north(), ot_match_type::type ) &&
5241 !connects_to( terrain_type, 0 ) ) {
5242 if( connects_to( dat.north(), 2 ) ) {
5243 for( int i = SEEX - 2; i < SEEX + 2; i++ ) {
5244 for( int j = 0; j < SEEY; j++ ) {
5245 ter_set( point( i, j ), t_sewage );
5246 }
5247 }
5248 } else {
5249 for( int j = 0; j < 3; j++ ) {
5250 ter_set( point( SEEX, j ), t_rock_floor );
5251 ter_set( point( SEEX - 1, j ), t_rock_floor );
5252 }
5253 ter_set( point( SEEX, 3 ), t_door_metal_c );
5254 ter_set( point( SEEX - 1, 3 ), t_door_metal_c );
5255 }
5256 }
5257 if( is_ot_match( "sewer", dat.east(), ot_match_type::type ) &&
5258 !connects_to( terrain_type, 1 ) ) {
5259 if( connects_to( dat.east(), 3 ) ) {
5260 for( int i = SEEX; i < SEEX * 2; i++ ) {
5261 for( int j = SEEY - 2; j < SEEY + 2; j++ ) {
5262 ter_set( point( i, j ), t_sewage );
5263 }
5264 }
5265 } else {
5266 for( int i = SEEX * 2 - 3; i < SEEX * 2; i++ ) {
5267 ter_set( point( i, SEEY ), t_rock_floor );
5268 ter_set( point( i, SEEY - 1 ), t_rock_floor );
5269 }
5270 ter_set( point( SEEX * 2 - 4, SEEY ), t_door_metal_c );
5271 ter_set( point( SEEX * 2 - 4, SEEY - 1 ), t_door_metal_c );
5272 }
5273 }
5274 if( is_ot_match( "sewer", dat.south(), ot_match_type::type ) &&
5275 !connects_to( terrain_type, 2 ) ) {
5276 if( connects_to( dat.south(), 0 ) ) {
5277 for( int i = SEEX - 2; i < SEEX + 2; i++ ) {
5278 for( int j = SEEY; j < SEEY * 2; j++ ) {
5279 ter_set( point( i, j ), t_sewage );
5280 }
5281 }
5282 } else {
5283 for( int j = SEEY * 2 - 3; j < SEEY * 2; j++ ) {
5284 ter_set( point( SEEX, j ), t_rock_floor );
5285 ter_set( point( SEEX - 1, j ), t_rock_floor );
5286 }
5287 ter_set( point( SEEX, SEEY * 2 - 4 ), t_door_metal_c );
5288 ter_set( point( SEEX - 1, SEEY * 2 - 4 ), t_door_metal_c );
5289 }
5290 }
5291 if( is_ot_match( "sewer", dat.west(), ot_match_type::type ) &&
5292 !connects_to( terrain_type, 3 ) ) {
5293 if( connects_to( dat.west(), 1 ) ) {
5294 for( int i = 0; i < SEEX; i++ ) {
5295 for( int j = SEEY - 2; j < SEEY + 2; j++ ) {
5296 ter_set( point( i, j ), t_sewage );
5297 }
5298 }
5299 } else {
5300 for( int i = 0; i < 3; i++ ) {
5301 ter_set( point( i, SEEY ), t_rock_floor );
5302 ter_set( point( i, SEEY - 1 ), t_rock_floor );
5303 }
5304 ter_set( point( 3, SEEY ), t_door_metal_c );
5305 ter_set( point( 3, SEEY - 1 ), t_door_metal_c );
5306 }
5307 }
5308 } else if( is_ot_match( "sewer", terrain_type, ot_match_type::type ) ) {
5309 if( dat.above() == "road_nesw_manhole" ) {
5310 ter_set( point( rng( SEEX - 2, SEEX + 1 ), rng( SEEY - 2, SEEY + 1 ) ), t_ladder_up );
5311 }
5312 if( is_ot_match( "subway", dat.north(), ot_match_type::type ) &&
5313 !connects_to( terrain_type, 0 ) ) {
5314 for( int j = 0; j < SEEY - 3; j++ ) {
5315 ter_set( point( SEEX, j ), t_rock_floor );
5316 ter_set( point( SEEX - 1, j ), t_rock_floor );
5317 }
5318 ter_set( point( SEEX, SEEY - 3 ), t_door_metal_c );
5319 ter_set( point( SEEX - 1, SEEY - 3 ), t_door_metal_c );
5320 }
5321 if( is_ot_match( "subway", dat.east(), ot_match_type::type ) &&
5322 !connects_to( terrain_type, 1 ) ) {
5323 for( int i = SEEX + 3; i < SEEX * 2; i++ ) {
5324 ter_set( point( i, SEEY ), t_rock_floor );
5325 ter_set( point( i, SEEY - 1 ), t_rock_floor );
5326 }
5327 ter_set( point( SEEX + 2, SEEY ), t_door_metal_c );
5328 ter_set( point( SEEX + 2, SEEY - 1 ), t_door_metal_c );
5329 }
5330 if( is_ot_match( "subway", dat.south(), ot_match_type::type ) &&
5331 !connects_to( terrain_type, 2 ) ) {
5332 for( int j = SEEY + 3; j < SEEY * 2; j++ ) {
5333 ter_set( point( SEEX, j ), t_rock_floor );
5334 ter_set( point( SEEX - 1, j ), t_rock_floor );
5335 }
5336 ter_set( point( SEEX, SEEY + 2 ), t_door_metal_c );
5337 ter_set( point( SEEX - 1, SEEY + 2 ), t_door_metal_c );
5338 }
5339 if( is_ot_match( "subway", dat.west(), ot_match_type::type ) &&
5340 !connects_to( terrain_type, 3 ) ) {
5341 for( int i = 0; i < SEEX - 3; i++ ) {
5342 ter_set( point( i, SEEY ), t_rock_floor );
5343 ter_set( point( i, SEEY - 1 ), t_rock_floor );
5344 }
5345 ter_set( point( SEEX - 3, SEEY ), t_door_metal_c );
5346 ter_set( point( SEEX - 3, SEEY - 1 ), t_door_metal_c );
5347 }
5348 } else if( is_ot_match( "ants", terrain_type, ot_match_type::type ) ) {
5349 if( dat.above() == "anthill" ) {
5350 if( const auto p = random_point( *this, [this]( const tripoint & n ) {
5351 return ter( n ) == t_rock_floor;
5352 } ) ) {
5353 ter_set( *p, t_slope_up );
5354 }
5355 }
5356 }
5357
5358 // finally, any terrain with SIDEWALKS should contribute sidewalks to neighboring diagonal roads
5359 if( terrain_type->has_flag( has_sidewalk ) ) {
5360 for( int dir = 4; dir < 8; dir++ ) { // NE SE SW NW
5361 bool n_roads_nesw[4] = {};
5362 int n_num_dirs = terrain_type_to_nesw_array( oter_id( dat.t_nesw[dir] ), n_roads_nesw );
5363 // only handle diagonal neighbors
5364 if( n_num_dirs == 2 &&
5365 n_roads_nesw[( ( dir - 4 ) + 3 ) % 4] &&
5366 n_roads_nesw[( ( dir - 4 ) + 2 ) % 4] ) {
5367 // make drawing simpler by rotating the map back and forth
5368 rotate( 4 - ( dir - 4 ) );
5369 // draw a small triangle of sidewalk in the northeast corner
5370 for( int y = 0; y < 4; y++ ) {
5371 for( int x = SEEX * 2 - 4; x < SEEX * 2; x++ ) {
5372 if( x - y > SEEX * 2 - 4 ) {
5373 // TODO: more discriminating conditions
5374 if( ter( point( x, y ) ) == t_grass || ter( point( x, y ) ) == t_dirt ||
5375 ter( point( x, y ) ) == t_shrub ) {
5376 ter_set( point( x, y ), t_sidewalk );
5377 }
5378 }
5379 }
5380 }
5381 rotate( ( dir - 4 ) );
5382 }
5383 }
5384 }
5385
5387}
void rotate(int turns, bool setpos_safe=false)
Rotates this map, and all of its contents, by the specified multiple of 90 degrees.
Definition: mapgen.cpp:5798
const oter_id & above() const
Definition: mapgendata.h:131
const oter_id & north() const
Definition: mapgendata.h:107
const oter_id & west() const
Definition: mapgendata.h:116
const oter_id & south() const
Definition: mapgendata.h:113
oter_id t_nesw[8]
Definition: mapgendata.h:45
const oter_id & east() const
Definition: mapgendata.h:110
cata::optional< tripoint > random_point(const map &m, const std::function< bool(const tripoint &)> &predicate)
Same as other random_point with a range enclosing all valid points of the map.
ter_id t_grass
Definition: mapdata.cpp:628
ter_id t_sewage
Definition: mapdata.cpp:694
ter_id t_slope_up
Definition: mapdata.cpp:719
ter_id t_ladder_up
Definition: mapdata.cpp:718
ter_id t_shrub
Definition: mapdata.cpp:683
ter_id t_sidewalk
Definition: mapdata.cpp:630
ter_id t_door_metal_c
Definition: mapdata.cpp:662
bool connects_to(const oter_id &there, int dir)
Definition: mapgen.cpp:5900
void resolve_regional_terrain_and_furniture(const mapgendata &dat)
int terrain_type_to_nesw_array(oter_id terrain_type, bool array[4])
@ has_sidewalk
Definition: omdata.h:90
bool is_ot_match(const std::string &name, const oter_id &oter, const ot_match_type match_type)
Determine if the provided name is a match with the provided overmap terrain based on the specified ma...
Definition: overmap.cpp:568
bool has_flag(oter_flags flag) const
Definition: omdata.h:258

References mapgendata::above(), connects_to(), mapgendata::east(), oter_t::has_flag(), has_sidewalk, is_ot_match(), mapgendata::north(), oter_id, random_point(), resolve_regional_terrain_and_furniture(), rng(), rotate(), SEEX, SEEY, mapgendata::south(), t_dirt, t_door_metal_c, t_grass, t_ladder_up, mapgendata::t_nesw, t_rock_floor, t_sewage, t_shrub, t_sidewalk, t_slope_up, ter(), ter_set(), mapgendata::terrain_type(), terrain_type_to_nesw_array(), type, and mapgendata::west().

Referenced by draw_map().

◆ draw_fill_background() [1/3]

void map::draw_fill_background ( const ter_id type)

Definition at line 8342 of file map.cpp.

8343{
8344 // Need to explicitly set caches dirty - set_ter would do it before
8349
8350 // Fill each submap rather than each tile
8351 for( int gridx = 0; gridx < my_MAPSIZE; gridx++ ) {
8352 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
8353 auto sm = get_submap_at_grid( {gridx, gridy} );
8354 sm->is_uniform = true;
8355 sm->set_all_ter( type );
8356 }
8357 }
8358}
void set_outside_cache_dirty(const int zlev)
Definition: map.h:447

References abs_sub, get_submap_at_grid(), my_MAPSIZE, set_outside_cache_dirty(), set_pathfinding_cache_dirty(), set_seen_cache_dirty(), set_transparency_cache_dirty(), coords::sm, type, and tripoint::z.

Referenced by fill_background(), mapgendata::fill_groundcover(), mapgen_function_json::generate(), and mapgen_forest().

◆ draw_fill_background() [2/3]

void map::draw_fill_background ( const weighted_int_list< ter_id > &  f)

Definition at line 8364 of file map.cpp.

8365{
8367}
void draw_square_ter(const ter_id &type, const point &p1, const point &p2)
Definition: map.cpp:8369

References draw_square_ter(), my_MAPSIZE, point_zero, SEEX, and SEEY.

◆ draw_fill_background() [3/3]

void map::draw_fill_background ( ter_id(*)()  f)

Definition at line 8360 of file map.cpp.

8361{
8363}

References draw_square_ter(), my_MAPSIZE, point_zero, SEEX, and SEEY.

◆ draw_from_above()

void map::draw_from_above ( const catacurses::window w,
const tripoint p,
const maptile tile,
const drawsq_params params 
) const
private

Draws the tile as seen from above.

Definition at line 6048 of file map.cpp.

6050{
6051 static const int AUTO_WALL_PLACEHOLDER = 2; // this should never appear as a real symbol!
6052
6053 nc_color tercol = c_dark_gray;
6054 int sym = ' ';
6055
6056 const ter_t &curr_ter = curr_tile.get_ter_t();
6057 const furn_t &curr_furn = curr_tile.get_furn_t();
6058 int part_below;
6059 const vehicle *veh;
6060 if( curr_furn.has_flag( TFLAG_SEEN_FROM_ABOVE ) ) {
6061 sym = curr_furn.symbol();
6062 tercol = curr_furn.color();
6063 } else if( curr_furn.movecost < 0 ) {
6064 sym = '.';
6065 tercol = curr_furn.color();
6066 } else if( ( veh = veh_at_internal( p, part_below ) ) != nullptr ) {
6067 const int roof = veh->roof_at_part( part_below );
6068 const int displayed_part = roof >= 0 ? roof : part_below;
6069 sym = special_symbol( veh->face.dir_symbol( veh->part_sym( displayed_part, true ) ) );
6070 tercol = ( roof >= 0 ||
6071 vpart_position( const_cast<vehicle &>( *veh ),
6072 part_below ).obstacle_at_part() ) ? c_light_gray : c_light_gray_cyan;
6073 } else if( curr_ter.has_flag( TFLAG_SEEN_FROM_ABOVE ) ) {
6074 if( curr_ter.has_flag( TFLAG_AUTO_WALL_SYMBOL ) ) {
6075 sym = AUTO_WALL_PLACEHOLDER;
6076 } else if( curr_ter.has_flag( TFLAG_RAMP ) ) {
6077 sym = '>';
6078 } else {
6079 sym = curr_ter.symbol();
6080 }
6081 tercol = curr_ter.color();
6082 } else if( curr_ter.movecost == 0 ) {
6083 sym = '.';
6084 tercol = curr_ter.color();
6085 } else if( !curr_ter.has_flag( TFLAG_NO_FLOOR ) ) {
6086 sym = '.';
6087 if( curr_ter.color() != c_cyan ) {
6088 // Need a special case here, it doesn't cyanize well
6089 tercol = cyan_background( curr_ter.color() );
6090 } else {
6091 tercol = c_black_cyan;
6092 }
6093 } else {
6094 sym = curr_ter.symbol();
6095 tercol = curr_ter.color();
6096 }
6097
6098 if( sym == AUTO_WALL_PLACEHOLDER ) {
6099 sym = determine_wall_corner( p );
6100 }
6101
6102 const auto u_vision = g->u.get_vision_modes();
6103 if( u_vision[BOOMERED] ) {
6104 tercol = c_magenta;
6105 } else if( u_vision[NV_GOGGLES] ) {
6106 tercol = params.bright_light() ? c_white : c_light_green;
6107 } else if( params.low_light() ) {
6108 tercol = c_dark_gray;
6109 } else if( u_vision[DARKNESS] ) {
6110 tercol = c_dark_gray;
6111 }
6112
6113 if( params.highlight() ) {
6114 tercol = invert_color( tercol );
6115 }
6116
6117 if( params.output() ) {
6118 wputch( w, tercol, sym );
6119 }
6120}
@ DARKNESS
Definition: character.h:93
@ NV_GOGGLES
Definition: character.h:89
@ BOOMERED
Definition: character.h:92
int determine_wall_corner(const tripoint &p) const
Definition: map.cpp:7831
vehicle * veh_at_internal(const tripoint &p, int &part_num)
Definition: map.cpp:1041
int dir_symbol(int sym) const
Definition: tileray.cpp:113
char part_sym(int p, bool exact=false) const
int roof_at_part(int p) const
Definition: vehicle.cpp:3012
tileray face
Definition: vehicle.h:1948
cata::optional< vpart_reference > obstacle_at_part() const
Returns the obstacle that exists at this point of the vehicle (if any).
Definition: vehicle.cpp:2438
nc_color invert_color(const nc_color &c)
Definition: color.cpp:503
nc_color cyan_background(const nc_color &c)
Definition: color.cpp:545
#define c_white
Definition: color.h:18
#define c_light_green
Definition: color.h:28
#define c_dark_gray
Definition: color.h:20
#define c_black_cyan
Definition: color.h:154
#define c_cyan
Definition: color.h:24
#define c_light_gray_cyan
Definition: color.h:156
@ TFLAG_AUTO_WALL_SYMBOL
Definition: mapdata.h:305
@ TFLAG_SEEN_FROM_ABOVE
Definition: mapdata.h:311
int special_symbol(int sym)
Definition: output.cpp:1095
constexpr drawsq_params & highlight(bool v)
Highlight the tile.
Definition: map.h:198
nc_color color() const
Definition: mapdata.cpp:555

References BOOMERED, drawsq_params::bright_light(), c_black_cyan, c_cyan, c_dark_gray, c_light_gray, c_light_gray_cyan, c_light_green, c_magenta, c_white, map_data_common_t::color(), cyan_background(), DARKNESS, determine_wall_corner(), tileray::dir_symbol(), vehicle::face, g, maptile::get_furn_t(), maptile::get_ter_t(), map_data_common_t::has_flag(), drawsq_params::highlight(), invert_color(), drawsq_params::low_light(), map_data_common_t::movecost, NV_GOGGLES, vpart_position::obstacle_at_part(), drawsq_params::output(), vehicle::part_sym(), vehicle::roof_at_part(), special_symbol(), map_data_common_t::symbol(), TFLAG_AUTO_WALL_SYMBOL, TFLAG_NO_FLOOR, TFLAG_RAMP, TFLAG_SEEN_FROM_ABOVE, veh_at_internal(), and wputch().

Referenced by draw(), and drawsq().

◆ draw_lab()

void map::draw_lab ( mapgendata dat)
protected

Definition at line 3515 of file mapgen.cpp.

3516{
3517 const oter_id &terrain_type = dat.terrain_type();
3518 // To distinguish between types of labs
3519 bool ice_lab = true;
3520 bool central_lab = false;
3521 bool tower_lab = false;
3522
3523 point p2;
3524
3525 int lw = 0;
3526 int rw = 0;
3527 int tw = 0;
3528 int bw = 0;
3529
3530 if( terrain_type == "lab" || terrain_type == "lab_stairs" || terrain_type == "lab_core" ||
3531 terrain_type == "ants_lab" || terrain_type == "ants_lab_stairs" ||
3532 terrain_type == "ice_lab" || terrain_type == "ice_lab_stairs" ||
3533 terrain_type == "ice_lab_core" ||
3534 terrain_type == "central_lab" || terrain_type == "central_lab_stairs" ||
3535 terrain_type == "central_lab_core" ||
3536 terrain_type == "tower_lab" || terrain_type == "tower_lab_stairs" ) {
3537
3538 ice_lab = is_ot_match( "ice_lab", terrain_type, ot_match_type::prefix );
3539 central_lab = is_ot_match( "central_lab", terrain_type, ot_match_type::prefix );
3540 tower_lab = is_ot_match( "tower_lab", terrain_type, ot_match_type::prefix );
3541
3542 if( ice_lab ) {
3543 int temperature = -20 + 30 * ( dat.zlevel() );
3545 set_temperature( p2 + point( SEEX, 0 ), temperature );
3546 set_temperature( p2 + point( 0, SEEY ), temperature );
3548 }
3549
3550 // Check for adjacent sewers; used below
3551 tw = 0;
3552 rw = 0;
3553 bw = 0;
3554 lw = 0;
3555 if( is_ot_match( "sewer", dat.north(), ot_match_type::type ) && connects_to( dat.north(), 2 ) ) {
3556 tw = SOUTH_EDGE + 1;
3557 }
3558 if( is_ot_match( "sewer", dat.east(), ot_match_type::type ) && connects_to( dat.east(), 3 ) ) {
3559 rw = EAST_EDGE + 1;
3560 }
3561 if( is_ot_match( "sewer", dat.south(), ot_match_type::type ) && connects_to( dat.south(), 0 ) ) {
3562 bw = SOUTH_EDGE + 1;
3563 }
3564 if( is_ot_match( "sewer", dat.west(), ot_match_type::type ) && connects_to( dat.west(), 1 ) ) {
3565 lw = EAST_EDGE + 1;
3566 }
3567 if( dat.zlevel() == 0 ) { // We're on ground level
3568 for( int i = 0; i < SEEX * 2; i++ ) {
3569 for( int j = 0; j < SEEY * 2; j++ ) {
3570 if( i <= 1 || i >= SEEX * 2 - 2 ||
3571 ( j > 1 && j < SEEY * 2 - 2 && ( i == SEEX - 2 || i == SEEX + 1 ) ) ) {
3572 ter_set( point( i, j ), t_concrete_wall );
3573 } else if( j <= 1 || j >= SEEY * 2 - 2 ) {
3574 ter_set( point( i, j ), t_concrete_wall );
3575 } else {
3576 ter_set( point( i, j ), t_floor );
3577 }
3578 }
3579 }
3580 ter_set( point( SEEX - 1, 0 ), t_door_metal_locked );
3581 ter_set( point( SEEX - 1, 1 ), t_floor );
3583 ter_set( point( SEEX, 1 ), t_floor );
3584 ter_set( point( SEEX - 2 + rng( 0, 1 ) * 3, 0 ), t_card_science );
3585 ter_set( point( SEEX - 2, SEEY ), t_door_metal_c );
3586 ter_set( point( SEEX + 1, SEEY ), t_door_metal_c );
3587 ter_set( point( SEEX - 2, SEEY - 1 ), t_door_metal_c );
3588 ter_set( point( SEEX + 1, SEEY - 1 ), t_door_metal_c );
3589 ter_set( point( SEEX - 1, SEEY * 2 - 3 ), t_stairs_down );
3590 ter_set( point( SEEX, SEEY * 2 - 3 ), t_stairs_down );
3591 science_room( this, point( 2, 2 ), point( SEEX - 3, SEEY * 2 - 3 ), dat.zlevel(), 1 );
3592 science_room( this, point( SEEX + 2, 2 ), point( SEEX * 2 - 3, SEEY * 2 - 3 ), dat.zlevel(), 3 );
3593
3594 place_spawns( GROUP_TURRET, 1, point( SEEX, 5 ), point( SEEX, 5 ), 1, true );
3595
3596 if( is_ot_match( "road", dat.east(), ot_match_type::type ) ) {
3597 rotate( 1 );
3598 } else if( is_ot_match( "road", dat.south(), ot_match_type::type ) ) {
3599 rotate( 2 );
3600 } else if( is_ot_match( "road", dat.west(), ot_match_type::type ) ) {
3601 rotate( 3 );
3602 }
3603 } else if( tw != 0 || rw != 0 || lw != 0 || bw != 0 ) { // Sewers!
3604 for( int i = 0; i < SEEX * 2; i++ ) {
3605 for( int j = 0; j < SEEY * 2; j++ ) {
3606 ter_set( point( i, j ), t_thconc_floor );
3607 if( ( ( i < lw || i > EAST_EDGE - rw ) && j > SEEY - 3 && j < SEEY + 2 ) ||
3608 ( ( j < tw || j > SOUTH_EDGE - bw ) && i > SEEX - 3 && i < SEEX + 2 ) ) {
3609 ter_set( point( i, j ), t_sewage );
3610 }
3611 if( ( i == 0 && is_ot_match( "lab", dat.east(), ot_match_type::contains ) ) || i == EAST_EDGE ) {
3612 if( ter( point( i, j ) ) == t_sewage ) {
3613 ter_set( point( i, j ), t_bars );
3614 } else if( j == SEEY - 1 || j == SEEY ) {
3615 ter_set( point( i, j ), t_door_metal_c );
3616 } else {
3617 ter_set( point( i, j ), t_concrete_wall );
3618 }
3619 } else if( ( j == 0 && is_ot_match( "lab", dat.north(), ot_match_type::contains ) ) ||
3620 j == SOUTH_EDGE ) {
3621 if( ter( point( i, j ) ) == t_sewage ) {
3622 ter_set( point( i, j ), t_bars );
3623 } else if( i == SEEX - 1 || i == SEEX ) {
3624 ter_set( point( i, j ), t_door_metal_c );
3625 } else {
3626 ter_set( point( i, j ), t_concrete_wall );
3627 }
3628 }
3629 }
3630 }
3631 } else { // We're below ground, and no sewers
3632 // Set up the boundaries of walls (connect to adjacent lab squares)
3633 tw = is_ot_match( "lab", dat.north(), ot_match_type::contains ) ? 0 : 2;
3634 rw = is_ot_match( "lab", dat.east(), ot_match_type::contains ) ? 1 : 2;
3635 bw = is_ot_match( "lab", dat.south(), ot_match_type::contains ) ? 1 : 2;
3636 lw = is_ot_match( "lab", dat.west(), ot_match_type::contains ) ? 0 : 2;
3637
3638 int boarders = 0;
3639 if( tw == 0 ) {
3640 boarders++;
3641 }
3642 if( rw == 1 ) {
3643 boarders++;
3644 }
3645 if( bw == 1 ) {
3646 boarders++;
3647 }
3648 if( lw == 0 ) {
3649 boarders++;
3650 }
3651
3652 const auto maybe_insert_stairs = [this]( const oter_id & terrain, const ter_id & t_stair_type ) {
3653 if( is_ot_match( "stairs", terrain, ot_match_type::contains ) ) {
3654 const auto predicate = [this]( const tripoint & p ) {
3655 return ter( p ) == t_thconc_floor && furn( p ) == f_null && tr_at( p ).is_null();
3656 };
3657 const auto range = points_in_rectangle( { 0, 0, abs_sub.z }, { SEEX * 2 - 2, SEEY * 2 - 2, abs_sub.z } );
3658
3659 if( const auto p = random_point( range, predicate ) ) {
3660 ter_set( *p, t_stair_type );
3661 }
3662 }
3663 };
3664
3665 //A lab area with only one entrance
3666 if( boarders == 1 ) {
3667 // If you remove the usage of "lab_1side" here, remove it from mapgen_factory::get_usages above as well.
3668 if( oter_mapgen.generate( dat, "lab_1side" ) ) {
3669 if( tw == 2 ) {
3670 rotate( 2 );
3671 }
3672 if( rw == 2 ) {
3673 rotate( 1 );
3674 }
3675 if( lw == 2 ) {
3676 rotate( 3 );
3677 }
3678 } else {
3679 debugmsg( "Error: Tried to generate 1-sided lab but no lab_1side json exists." );
3680 }
3681 maybe_insert_stairs( dat.above(), t_stairs_up );
3682 maybe_insert_stairs( terrain_type, t_stairs_down );
3683 } else {
3684 const int hardcoded_4side_map_weight = 1500; // weight of all hardcoded maps.
3685 // If you remove the usage of "lab_4side" here, remove it from mapgen_factory::get_usages above as well.
3686 if( oter_mapgen.generate( dat, "lab_4side", hardcoded_4side_map_weight ) ) {
3687 // If the map template hasn't handled borders, handle them in code.
3688 // Rotated maps cannot handle borders and have to be caught in code.
3689 // We determine if a border isn't handled by checking the east-facing
3690 // border space where the door normally is -- it should be a wall or door.
3691 tripoint east_border( 23, 11, abs_sub.z );
3692 if( !has_flag_ter( "WALL", east_border ) &&
3693 !has_flag_ter( "DOOR", east_border ) ) {
3694 // TODO: create a ter_reset function that does ter_set,
3695 // furn_set, and i_clear?
3696 ter_id lw_type = tower_lab ? t_reinforced_glass : t_concrete_wall;
3697 ter_id tw_type = tower_lab ? t_reinforced_glass : t_concrete_wall;
3698 ter_id rw_type = tower_lab && rw == 2 ? t_reinforced_glass :
3700 ter_id bw_type = tower_lab && bw == 2 ? t_reinforced_glass :
3702 for( int i = 0; i < SEEX * 2; i++ ) {
3703 ter_set( point( 23, i ), rw_type );
3704 furn_set( point( 23, i ), f_null );
3705 i_clear( tripoint( 23, i, get_abs_sub().z ) );
3706
3707 ter_set( point( i, 23 ), bw_type );
3708 furn_set( point( i, 23 ), f_null );
3709 i_clear( tripoint( i, 23, get_abs_sub().z ) );
3710
3711 if( lw == 2 ) {
3712 ter_set( point( 0, i ), lw_type );
3713 furn_set( point( 0, i ), f_null );
3714 i_clear( tripoint( 0, i, get_abs_sub().z ) );
3715 }
3716 if( tw == 2 ) {
3717 ter_set( point( i, 0 ), tw_type );
3718 furn_set( point( i, 0 ), f_null );
3719 i_clear( tripoint( i, 0, get_abs_sub().z ) );
3720 }
3721 }
3722 if( rw != 2 ) {
3723 ter_set( point( 23, 11 ), t_door_metal_c );
3724 ter_set( point( 23, 12 ), t_door_metal_c );
3725 }
3726 if( bw != 2 ) {
3727 ter_set( point( 11, 23 ), t_door_metal_c );
3728 ter_set( point( 12, 23 ), t_door_metal_c );
3729 }
3730 }
3731
3732 maybe_insert_stairs( dat.above(), t_stairs_up );
3733 maybe_insert_stairs( terrain_type, t_stairs_down );
3734 } else { // then no json maps for lab_4side were found
3735 switch( rng( 1, 3 ) ) {
3736 case 1:
3737 // Cross shaped
3738 for( int i = 0; i < SEEX * 2; i++ ) {
3739 for( int j = 0; j < SEEY * 2; j++ ) {
3740 if( ( i < lw || i > EAST_EDGE - rw ) ||
3741 ( ( j < SEEY - 1 || j > SEEY ) &&
3742 ( i == SEEX - 2 || i == SEEX + 1 ) ) ) {
3743 ter_set( point( i, j ), t_concrete_wall );
3744 } else if( ( j < tw || j > SOUTH_EDGE - bw ) ||
3745 ( ( i < SEEX - 1 || i > SEEX ) &&
3746 ( j == SEEY - 2 || j == SEEY + 1 ) ) ) {
3747 ter_set( point( i, j ), t_concrete_wall );
3748 } else {
3749 ter_set( point( i, j ), t_thconc_floor );
3750 }
3751 }
3752 }
3753 if( is_ot_match( "stairs", dat.above(), ot_match_type::contains ) ) {
3754 ter_set( point( rng( SEEX - 1, SEEX ), rng( SEEY - 1, SEEY ) ),
3755 t_stairs_up );
3756 }
3757 // Top left
3758 if( one_in( 2 ) ) {
3759 ter_set( point( SEEX - 2, int( SEEY / 2 ) ), t_door_glass_frosted_c );
3760 science_room( this, point( lw, tw ), point( SEEX - 3, SEEY - 3 ), dat.zlevel(), 1 );
3761 } else {
3763 science_room( this, point( lw, tw ), point( SEEX - 3, SEEY - 3 ), dat.zlevel(), 2 );
3764 }
3765 // Top right
3766 if( one_in( 2 ) ) {
3767 ter_set( point( SEEX + 1, int( SEEY / 2 ) ), t_door_glass_frosted_c );
3768 science_room( this, point( SEEX + 2, tw ), point( EAST_EDGE - rw, SEEY - 3 ),
3769 dat.zlevel(), 3 );
3770 } else {
3771 ter_set( point( SEEX + int( SEEX / 2 ), SEEY - 2 ), t_door_glass_frosted_c );
3772 science_room( this, point( SEEX + 2, tw ), point( EAST_EDGE - rw, SEEY - 3 ),
3773 dat.zlevel(), 2 );
3774 }
3775 // Bottom left
3776 if( one_in( 2 ) ) {
3778 science_room( this, point( lw, SEEY + 2 ), point( SEEX - 3, SOUTH_EDGE - bw ),
3779 dat.zlevel(), 0 );
3780 } else {
3781 ter_set( point( SEEX - 2, SEEY + int( SEEY / 2 ) ), t_door_glass_frosted_c );
3782 science_room( this, point( lw, SEEY + 2 ), point( SEEX - 3, SOUTH_EDGE - bw ),
3783 dat.zlevel(), 1 );
3784 }
3785 // Bottom right
3786 if( one_in( 2 ) ) {
3787 ter_set( point( SEEX + int( SEEX / 2 ), SEEY + 1 ), t_door_glass_frosted_c );
3788 science_room( this, point( SEEX + 2, SEEY + 2 ), point( EAST_EDGE - rw, SOUTH_EDGE - bw ),
3789 dat.zlevel(), 0 );
3790 } else {
3791 ter_set( point( SEEX + 1, SEEY + int( SEEY / 2 ) ), t_door_glass_frosted_c );
3792 science_room( this, point( SEEX + 2, SEEY + 2 ), point( EAST_EDGE - rw, SOUTH_EDGE - bw ),
3793 dat.zlevel(), 3 );
3794 }
3795 if( rw == 1 ) {
3798 }
3799 if( bw == 1 ) {
3802 }
3803 if( is_ot_match( "stairs", terrain_type, ot_match_type::contains ) ) { // Stairs going down
3804 std::vector<point> stair_points;
3805 if( tw != 0 ) {
3806 stair_points.push_back( point( SEEX - 1, 2 ) );
3807 stair_points.push_back( point( SEEX - 1, 2 ) );
3808 stair_points.push_back( point( SEEX, 2 ) );
3809 stair_points.push_back( point( SEEX, 2 ) );
3810 }
3811 if( rw != 1 ) {
3812 stair_points.push_back( point( SEEX * 2 - 3, SEEY - 1 ) );
3813 stair_points.push_back( point( SEEX * 2 - 3, SEEY - 1 ) );
3814 stair_points.push_back( point( SEEX * 2 - 3, SEEY ) );
3815 stair_points.push_back( point( SEEX * 2 - 3, SEEY ) );
3816 }
3817 if( bw != 1 ) {
3818 stair_points.push_back( point( SEEX - 1, SEEY * 2 - 3 ) );
3819 stair_points.push_back( point( SEEX - 1, SEEY * 2 - 3 ) );
3820 stair_points.push_back( point( SEEX, SEEY * 2 - 3 ) );
3821 stair_points.push_back( point( SEEX, SEEY * 2 - 3 ) );
3822 }
3823 if( lw != 0 ) {
3824 stair_points.push_back( point( 2, SEEY - 1 ) );
3825 stair_points.push_back( point( 2, SEEY - 1 ) );
3826 stair_points.push_back( point( 2, SEEY ) );
3827 stair_points.push_back( point( 2, SEEY ) );
3828 }
3829 stair_points.push_back( point( int( SEEX / 2 ), SEEY ) );
3830 stair_points.push_back( point( int( SEEX / 2 ), SEEY - 1 ) );
3831 stair_points.push_back( point( int( SEEX / 2 ) + SEEX, SEEY ) );
3832 stair_points.push_back( point( int( SEEX / 2 ) + SEEX, SEEY - 1 ) );
3833 stair_points.push_back( point( SEEX, int( SEEY / 2 ) ) );
3834 stair_points.push_back( point( SEEX + 2, int( SEEY / 2 ) ) );
3835 stair_points.push_back( point( SEEX, int( SEEY / 2 ) + SEEY ) );
3836 stair_points.push_back( point( SEEX + 2, int( SEEY / 2 ) + SEEY ) );
3837 const point p = random_entry( stair_points );
3838 ter_set( p, t_stairs_down );
3839 }
3840
3841 break;
3842
3843 case 2:
3844 // tic-tac-toe # layout
3845 for( int i = 0; i < SEEX * 2; i++ ) {
3846 for( int j = 0; j < SEEY * 2; j++ ) {
3847 if( i < lw || i > EAST_EDGE - rw || i == SEEX - 4 ||
3848 i == SEEX + 3 ) {
3849 ter_set( point( i, j ), t_concrete_wall );
3850 } else if( j < tw || j > SOUTH_EDGE - bw || j == SEEY - 4 ||
3851 j == SEEY + 3 ) {
3852 ter_set( point( i, j ), t_concrete_wall );
3853 } else {
3854 ter_set( point( i, j ), t_thconc_floor );
3855 }
3856 }
3857 }
3858 if( is_ot_match( "stairs", dat.above(), ot_match_type::contains ) ) {
3859 ter_set( point( SEEX - 1, SEEY - 1 ), t_stairs_up );
3860 ter_set( point( SEEX, SEEY - 1 ), t_stairs_up );
3861 ter_set( point( SEEX - 1, SEEY ), t_stairs_up );
3863 }
3864 ter_set( point( SEEX - rng( 0, 1 ), SEEY - 4 ), t_door_glass_frosted_c );
3865 ter_set( point( SEEX - rng( 0, 1 ), SEEY + 3 ), t_door_glass_frosted_c );
3866 ter_set( point( SEEX - 4, SEEY + rng( 0, 1 ) ), t_door_glass_frosted_c );
3867 ter_set( point( SEEX + 3, SEEY + rng( 0, 1 ) ), t_door_glass_frosted_c );
3868 ter_set( point( SEEX - 4, int( SEEY / 2 ) ), t_door_glass_frosted_c );
3869 ter_set( point( SEEX + 3, int( SEEY / 2 ) ), t_door_glass_frosted_c );
3872 ter_set( point( SEEX + int( SEEX / 2 ), SEEY - 4 ), t_door_glass_frosted_c );
3873 ter_set( point( SEEX + int( SEEX / 2 ), SEEY + 3 ), t_door_glass_frosted_c );
3874 ter_set( point( SEEX - 4, SEEY + int( SEEY / 2 ) ), t_door_glass_frosted_c );
3875 ter_set( point( SEEX + 3, SEEY + int( SEEY / 2 ) ), t_door_glass_frosted_c );
3876 science_room( this, point( lw, tw ), point( SEEX - 5, SEEY - 5 ), dat.zlevel(),
3877 rng( 1, 2 ) );
3878 science_room( this, point( SEEX - 3, tw ), point( SEEX + 2, SEEY - 5 ), dat.zlevel(), 2 );
3879 science_room( this, point( SEEX + 4, tw ), point( EAST_EDGE - rw, SEEY - 5 ),
3880 dat.zlevel(), rng( 2, 3 ) );
3881 science_room( this, point( lw, SEEY - 3 ), point( SEEX - 5, SEEY + 2 ), dat.zlevel(), 1 );
3882 science_room( this, point( SEEX + 4, SEEY - 3 ), point( EAST_EDGE - rw, SEEY + 2 ),
3883 dat.zlevel(), 3 );
3884 science_room( this, point( lw, SEEY + 4 ), point( SEEX - 5, SOUTH_EDGE - bw ),
3885 dat.zlevel(), rng( 0, 1 ) );
3886 science_room( this, point( SEEX - 3, SEEY + 4 ), point( SEEX + 2, SOUTH_EDGE - bw ),
3887 dat.zlevel(), 0 );
3888 science_room( this, point( SEEX + 4, SEEX + 4 ), point( EAST_EDGE - rw, SOUTH_EDGE - bw ),
3889 dat.zlevel(), 3 * rng( 0, 1 ) );
3890 if( rw == 1 ) {
3893 }
3894 if( bw == 1 ) {
3897 }
3898 if( is_ot_match( "stairs", terrain_type, ot_match_type::contains ) ) {
3899 ter_set( point( SEEX - 3 + 5 * rng( 0, 1 ), SEEY - 3 + 5 * rng( 0, 1 ) ),
3900 t_stairs_down );
3901 }
3902 break;
3903
3904 case 3:
3905 // Big room
3906 for( int i = 0; i < SEEX * 2; i++ ) {
3907 for( int j = 0; j < SEEY * 2; j++ ) {
3908 if( i < lw || i >= EAST_EDGE - rw ) {
3909 ter_set( point( i, j ), t_concrete_wall );
3910 } else if( j < tw || j >= SOUTH_EDGE - bw ) {
3911 ter_set( point( i, j ), t_concrete_wall );
3912 } else {
3913 ter_set( point( i, j ), t_thconc_floor );
3914 }
3915 }
3916 }
3917 science_room( this, point( lw, tw ), point( EAST_EDGE - rw, SOUTH_EDGE - bw ),
3918 dat.zlevel(), rng( 0, 3 ) );
3919
3920 if( rw == 1 ) {
3923 }
3924 if( bw == 1 ) {
3927 }
3928 maybe_insert_stairs( dat.above(), t_stairs_up );
3929 maybe_insert_stairs( terrain_type, t_stairs_down );
3930 break;
3931 }
3932 } // endif use_hardcoded_4side_map
3933 } // end 1 vs 4 sides
3934 } // end aboveground vs belowground
3935
3936 // Ants will totally wreck up the place
3937 if( is_ot_match( "ants", terrain_type, ot_match_type::contains ) ) {
3938 for( int i = 0; i < SEEX * 2; i++ ) {
3939 for( int j = 0; j < SEEY * 2; j++ ) {
3940 // Carve out a diamond area that covers 2 spaces on each edge.
3941 if( i + j > 10 && i + j < 36 && std::abs( i - j ) < 13 ) {
3942 // Doors and walls get sometimes destroyed:
3943 // 100% at the edge, usually in a central cross, occasionally elsewhere.
3944 if( ( has_flag_ter( "DOOR", point( i, j ) ) || has_flag_ter( "WALL", point( i, j ) ) ) ) {
3945 if( ( i == 0 || j == 0 || i == 23 || j == 23 ) ||
3946 ( !one_in( 3 ) && ( i == 11 || i == 12 || j == 11 || j == 12 ) ) ||
3947 one_in( 4 ) ) {
3948 // bash and usually remove the rubble.
3949 make_rubble( { i, j, abs_sub.z } );
3950 ter_set( point( i, j ), t_rock_floor );
3951 if( !one_in( 3 ) ) {
3952 furn_set( point( i, j ), f_null );
3953 }
3954 }
3955 // and then randomly destroy 5% of the remaining nonstairs.
3956 } else if( one_in( 20 ) &&
3957 !has_flag_ter( "GOES_DOWN", p2 ) &&
3958 !has_flag_ter( "GOES_UP", p2 ) ) {
3959 destroy( { i, j, abs_sub.z } );
3960 // bashed squares can create dirt & floors, but we want rock floors.
3961 if( t_dirt == ter( point( i, j ) ) || t_floor == ter( point( i, j ) ) ) {
3962 ter_set( point( i, j ), t_rock_floor );
3963 }
3964 }
3965 }
3966 }
3967 }
3968 }
3969
3970 // Slimes pretty much wreck up the place, too, but only underground
3971 tw = ( dat.north() == "slimepit" ? SEEY : 0 );
3972 rw = ( dat.east() == "slimepit" ? SEEX + 1 : 0 );
3973 bw = ( dat.south() == "slimepit" ? SEEY + 1 : 0 );
3974 lw = ( dat.west() == "slimepit" ? SEEX : 0 );
3975 if( tw != 0 || rw != 0 || bw != 0 || lw != 0 ) {
3976 for( int i = 0; i < SEEX * 2; i++ ) {
3977 for( int j = 0; j < SEEY * 2; j++ ) {
3978 if( ( ( j <= tw || i >= rw ) && i >= j && ( EAST_EDGE - i ) <= j ) ||
3979 ( ( j >= bw || i <= lw ) && i <= j && ( SOUTH_EDGE - j ) <= i ) ) {
3980 if( one_in( 5 ) ) {
3981 make_rubble( tripoint( i, j, abs_sub.z ), f_rubble_rock, true,
3982 t_slime );
3983 } else if( !one_in( 5 ) ) {
3984 ter_set( point( i, j ), t_slime );
3985 }
3986 }
3987 }
3988 }
3989 }
3990
3991 int light_odds = 0;
3992 // central labs are always fully lit, other labs have half chance of some lights.
3993 if( central_lab ) {
3994 light_odds = 1;
3995 } else if( one_in( 2 ) ) {
3996 // Create a spread of densities, from all possible lights on, to 1/3, ...
3997 // to ~1 per segment.
3998 light_odds = std::pow( rng( 1, 12 ), 1.6 );
3999 }
4000 if( light_odds > 0 ) {
4001 for( int i = 0; i < SEEX * 2; i++ ) {
4002 for( int j = 0; j < SEEY * 2; j++ ) {
4003 if( !( ( i * j ) % 2 || ( i + j ) % 4 ) && one_in( light_odds ) ) {
4004 if( t_thconc_floor == ter( point( i, j ) ) || t_strconc_floor == ter( point( i, j ) ) ) {
4006 }
4007 }
4008 }
4009 }
4010 }
4011
4012 if( tower_lab ) {
4014 }
4015
4016 // Lab special effects.
4017 if( one_in( 10 ) ) {
4018 switch( rng( 1, 7 ) ) {
4019 // full flooding/sewage
4020 case 1: {
4021 if( is_ot_match( "stairs", terrain_type, ot_match_type::contains ) ||
4022 is_ot_match( "ice", terrain_type, ot_match_type::contains ) ) {
4023 // don't flood if stairs because the floor below will not be flooded.
4024 // don't flood if ice lab because there's no mechanic for freezing
4025 // liquid floors.
4026 break;
4027 }
4028 auto fluid_type = one_in( 3 ) ? t_sewage : t_water_sh;
4029 for( int i = 0; i < EAST_EDGE; i++ ) {
4030 for( int j = 0; j < SOUTH_EDGE; j++ ) {
4031 // We spare some terrain to make it look better visually.
4032 if( !one_in( 10 ) && ( t_thconc_floor == ter( point( i, j ) ) ||
4033 t_strconc_floor == ter( point( i, j ) ) ||
4034 t_thconc_floor_olight == ter( point( i, j ) ) ) ) {
4035 ter_set( point( i, j ), fluid_type );
4036 } else if( has_flag_ter( "DOOR", point( i, j ) ) && !one_in( 3 ) ) {
4037 // We want the actual debris, but not the rubble marker or dirt.
4038 make_rubble( { i, j, abs_sub.z } );
4039 ter_set( point( i, j ), fluid_type );
4040 furn_set( point( i, j ), f_null );
4041 }
4042 }
4043 }
4044 break;
4045 }
4046 // minor flooding/sewage
4047 case 2: {
4048 if( is_ot_match( "stairs", terrain_type, ot_match_type::contains ) ||
4049 is_ot_match( "ice", terrain_type, ot_match_type::contains ) ) {
4050 // don't flood if stairs because the floor below will not be flooded.
4051 // don't flood if ice lab because there's no mechanic for freezing
4052 // liquid floors.
4053 break;
4054 }
4055 auto fluid_type = one_in( 3 ) ? t_sewage : t_water_sh;
4056 for( int i = 0; i < 2; ++i ) {
4057 draw_rough_circle( [this, fluid_type]( const point & p ) {
4058 if( t_thconc_floor == ter( p ) || t_strconc_floor == ter( p ) ||
4059 t_thconc_floor_olight == ter( p ) ) {
4060 ter_set( p, fluid_type );
4061 } else if( has_flag_ter( "DOOR", p ) ) {
4062 // We want the actual debris, but not the rubble marker or dirt.
4063 make_rubble( { p, abs_sub.z } );
4064 ter_set( p, fluid_type );
4065 furn_set( p, f_null );
4066 }
4067 }, point( rng( 1, SEEX * 2 - 2 ), rng( 1, SEEY * 2 - 2 ) ), rng( 3, 6 ) );
4068 }
4069 break;
4070 }
4071 // toxic gas leaks and smoke-filled rooms.
4072 case 3:
4073 case 4: {
4074 bool is_toxic = one_in( 3 );
4075 for( int i = 0; i < SEEX * 2; i++ ) {
4076 for( int j = 0; j < SEEY * 2; j++ ) {
4077 if( one_in( 200 ) && ( t_thconc_floor == ter( point( i, j ) ) ||
4078 t_strconc_floor == ter( point( i, j ) ) ) ) {
4079 if( is_toxic ) {
4080 add_field( {i, j, abs_sub.z}, fd_gas_vent, 1 );
4081 } else {
4082 add_field( {i, j, abs_sub.z}, fd_smoke_vent, 2 );
4083 }
4084 }
4085 }
4086 }
4087 break;
4088 }
4089 // portal with an artifact effect.
4090 case 5: {
4091 tripoint center( rng( 6, SEEX * 2 - 7 ), rng( 6, SEEY * 2 - 7 ), abs_sub.z );
4092 std::vector<artifact_natural_property> valid_props = {
4099 };
4100 draw_rough_circle( [this]( const point & p ) {
4101 if( has_flag_ter( "GOES_DOWN", p ) ||
4102 has_flag_ter( "GOES_UP", p ) ||
4103 has_flag_ter( "CONSOLE", p ) ) {
4104 return; // spare stairs and consoles.
4105 }
4106 make_rubble( {p, abs_sub.z } );
4107 ter_set( p, t_thconc_floor );
4108 }, center.xy(), 4 );
4109 furn_set( center.xy(), f_null );
4111 create_anomaly( center, random_entry( valid_props ), false );
4112 break;
4113 }
4114 // radioactive accident.
4115 case 6: {
4116 tripoint center( rng( 6, SEEX * 2 - 7 ), rng( 6, SEEY * 2 - 7 ), abs_sub.z );
4117 if( has_flag_ter( "WALL", center.xy() ) ) {
4118 // just skip it, we don't want to risk embedding radiation out of sight.
4119 break;
4120 }
4121 draw_rough_circle( [this]( const point & p ) {
4122 set_radiation( p, 10 );
4123 }, center.xy(), rng( 7, 12 ) );
4124 draw_circle( [this]( const point & p ) {
4125 set_radiation( p, 20 );
4126 }, center.xy(), rng( 5, 8 ) );
4127 draw_circle( [this]( const point & p ) {
4128 set_radiation( p, 30 );
4129 }, center.xy(), rng( 2, 4 ) );
4130 draw_circle( [this]( const point & p ) {
4131 set_radiation( p, 50 );
4132 }, center.xy(), 1 );
4133 draw_circle( [this]( const point & p ) {
4134 if( has_flag_ter( "GOES_DOWN", p ) ||
4135 has_flag_ter( "GOES_UP", p ) ||
4136 has_flag_ter( "CONSOLE", p ) ) {
4137 return; // spare stairs and consoles.
4138 }
4139 make_rubble( {p, abs_sub.z } );
4140 ter_set( p, t_thconc_floor );
4141 }, center.xy(), 1 );
4142
4144 center.xy() + point_west, 1, true );
4146 center.xy() + point_west, 1, true );
4147
4148 // damaged mininuke/plut thrown past edge of rubble so the player can see it.
4149 int marker_x = center.x - 2 + 4 * rng( 0, 1 );
4150 int marker_y = center.y + rng( -2, 2 );
4151 if( one_in( 4 ) ) {
4152 spawn_item(
4153 point( marker_x, marker_y ), "mininuke", 1, 1, calendar::start_of_cataclysm, rng( 2, 4 )
4154 );
4155 } else {
4156 item newliquid( "plut_slurry_dense", calendar::start_of_cataclysm );
4157 newliquid.charges = 1;
4158 add_item_or_charges( tripoint( marker_x, marker_y, get_abs_sub().z ),
4159 newliquid );
4160 }
4161 break;
4162 }
4163 // portal with fungal invasion
4164 case 7: {
4165 for( int i = 0; i < EAST_EDGE; i++ ) {
4166 for( int j = 0; j < SOUTH_EDGE; j++ ) {
4167 // Create a mostly spread fungal area throughout entire lab.
4168 if( !one_in( 5 ) && ( has_flag( "FLAT", point( i, j ) ) ) ) {
4169 ter_set( point( i, j ), t_fungus_floor_in );
4170 if( has_flag_furn( "ORGANIC", point( i, j ) ) ) {
4171 furn_set( point( i, j ), f_fungal_clump );
4172 }
4173 } else if( has_flag_ter( "DOOR", point( i, j ) ) && !one_in( 5 ) ) {
4174 ter_set( point( i, j ), t_fungus_floor_in );
4175 } else if( has_flag_ter( "WALL", point( i, j ) ) && one_in( 3 ) ) {
4176 ter_set( point( i, j ), t_fungus_wall );
4177 }
4178 }
4179 }
4180 tripoint center( rng( 6, SEEX * 2 - 7 ), rng( 6, SEEY * 2 - 7 ), abs_sub.z );
4181
4182 // Make a portal surrounded by more dense fungal stuff and a fungaloid.
4183 draw_rough_circle( [this]( const point & p ) {
4184 if( has_flag_ter( "GOES_DOWN", p ) ||
4185 has_flag_ter( "GOES_UP", p ) ||
4186 has_flag_ter( "CONSOLE", p ) ) {
4187 return; // spare stairs and consoles.
4188 }
4189 if( has_flag_ter( "WALL", p ) ) {
4190 ter_set( p, t_fungus_wall );
4191 } else {
4193 if( one_in( 3 ) ) {
4195 } else if( one_in( 10 ) ) {
4196 ter_set( p, t_marloss );
4197 }
4198 }
4199 }, center.xy(), 3 );
4201 furn_set( center.xy(), f_null );
4203 place_spawns( GROUP_FUNGI_FUNGALOID, 1, center.xy() + point( -2, -2 ),
4204 center.xy() + point( 2, 2 ), 1, true );
4205
4206 break;
4207 }
4208 }
4209 }
4210 } else if( terrain_type == "lab_finale" || terrain_type == "ice_lab_finale" ||
4211 terrain_type == "central_lab_finale" || terrain_type == "tower_lab_finale" ) {
4212
4213 ice_lab = is_ot_match( "ice_lab", terrain_type, ot_match_type::prefix );
4214 central_lab = is_ot_match( "central_lab", terrain_type, ot_match_type::prefix );
4215 tower_lab = is_ot_match( "tower_lab", terrain_type, ot_match_type::prefix );
4216
4217 if( ice_lab ) {
4218 int temperature = -20 + 30 * dat.zlevel();
4220 set_temperature( p2 + point( SEEX, 0 ), temperature );
4221 set_temperature( p2 + point( 0, SEEY ), temperature );
4223 }
4224
4225 tw = is_ot_match( "lab", dat.north(), ot_match_type::contains ) ? 0 : 2;
4226 rw = is_ot_match( "lab", dat.east(), ot_match_type::contains ) ? 1 : 2;
4227 bw = is_ot_match( "lab", dat.south(), ot_match_type::contains ) ? 1 : 2;
4228 lw = is_ot_match( "lab", dat.west(), ot_match_type::contains ) ? 0 : 2;
4229
4230 const int hardcoded_finale_map_weight = 500; // weight of all hardcoded maps.
4231 // If you remove the usage of "lab_finale_1level" here, remove it from mapgen_factory::get_usages above as well.
4232 if( oter_mapgen.generate( dat, "lab_finale_1level", hardcoded_finale_map_weight ) ) {
4233 // If the map template hasn't handled borders, handle them in code.
4234 // Rotated maps cannot handle borders and have to be caught in code.
4235 // We determine if a border isn't handled by checking the east-facing
4236 // border space where the door normally is -- it should be a wall or door.
4237 tripoint east_border( 23, 11, abs_sub.z );
4238 if( !has_flag_ter( "WALL", east_border ) && !has_flag_ter( "DOOR", east_border ) ) {
4239 // TODO: create a ter_reset function that does ter_set, furn_set, and i_clear?
4240 ter_id lw_type = tower_lab ? t_reinforced_glass : t_concrete_wall;
4241 ter_id tw_type = tower_lab ? t_reinforced_glass : t_concrete_wall;
4242 ter_id rw_type = tower_lab && rw == 2 ? t_reinforced_glass : t_concrete_wall;
4243 ter_id bw_type = tower_lab && bw == 2 ? t_reinforced_glass : t_concrete_wall;
4244 for( int i = 0; i < SEEX * 2; i++ ) {
4245 ter_set( point( 23, i ), rw_type );
4246 furn_set( point( 23, i ), f_null );
4247 i_clear( tripoint( 23, i, get_abs_sub().z ) );
4248
4249 ter_set( point( i, 23 ), bw_type );
4250 furn_set( point( i, 23 ), f_null );
4251 i_clear( tripoint( i, 23, get_abs_sub().z ) );
4252
4253 if( lw == 2 ) {
4254 ter_set( point( 0, i ), lw_type );
4255 furn_set( point( 0, i ), f_null );
4256 i_clear( tripoint( 0, i, get_abs_sub().z ) );
4257 }
4258 if( tw == 2 ) {
4259 ter_set( point( i, 0 ), tw_type );
4260 furn_set( point( i, 0 ), f_null );
4261 i_clear( tripoint( i, 0, get_abs_sub().z ) );
4262 }
4263 }
4264 if( rw != 2 ) {
4265 ter_set( point( 23, 11 ), t_door_metal_c );
4266 ter_set( point( 23, 12 ), t_door_metal_c );
4267 }
4268 if( bw != 2 ) {
4269 ter_set( point( 11, 23 ), t_door_metal_c );
4270 ter_set( point( 12, 23 ), t_door_metal_c );
4271 }
4272 }
4273 } else { // then no json maps for lab_finale_1level were found
4274 // Start by setting up a large, empty room.
4275 for( int i = 0; i < SEEX * 2; i++ ) {
4276 for( int j = 0; j < SEEY * 2; j++ ) {
4277 if( i < lw || i > EAST_EDGE - rw ) {
4278 ter_set( point( i, j ), t_concrete_wall );
4279 } else if( j < tw || j > SOUTH_EDGE - bw ) {
4280 ter_set( point( i, j ), t_concrete_wall );
4281 } else {
4282 ter_set( point( i, j ), t_thconc_floor );
4283 }
4284 }
4285 }
4286 if( rw == 1 ) {
4289 }
4290 if( bw == 1 ) {
4293 }
4294
4295 int loot_variant; //only used for weapons testing variant.
4296 computer *tmpcomp = nullptr;
4297 switch( rng( 1, 5 ) ) {
4298 // Weapons testing - twice as common because it has 4 variants.
4299 case 1:
4300 case 2:
4301 loot_variant = rng( 1, 100 ); //The variants have a 67/22/7/4 split.
4302 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( 6, 6 ), point( 6, 6 ), 1, true );
4303 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( SEEX * 2 - 7, 6 ),
4304 point( SEEX * 2 - 7, 6 ), 1, true );
4305 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( 6, SEEY * 2 - 7 ),
4306 point( 6, SEEY * 2 - 7 ), 1, true );
4307 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( SEEX * 2 - 7, SEEY * 2 - 7 ),
4308 point( SEEX * 2 - 7, SEEY * 2 - 7 ), 1, true );
4309 spawn_item( point( SEEX - 4, SEEY - 2 ), "id_science" );
4310 if( loot_variant <= 96 ) {
4311 mtrap_set( this, point( SEEX - 3, SEEY - 3 ), tr_dissector );
4312 mtrap_set( this, point( SEEX + 2, SEEY - 3 ), tr_dissector );
4313 mtrap_set( this, point( SEEX - 3, SEEY + 2 ), tr_dissector );
4314 mtrap_set( this, point( SEEX + 2, SEEY + 2 ), tr_dissector );
4315 line( this, t_reinforced_glass, point( SEEX + 1, SEEY + 1 ), point( SEEX - 2, SEEY + 1 ) );
4316 line( this, t_reinforced_glass, point( SEEX - 2, SEEY ), point( SEEX - 2, SEEY - 2 ) );
4317 line( this, t_reinforced_glass, point( SEEX - 1, SEEY - 2 ), point( SEEX + 1, SEEY - 2 ) );
4318 ter_set( point( SEEX + 1, SEEY - 1 ), t_reinforced_glass );
4320 furn_set( point( SEEX - 1, SEEY - 1 ), f_table );
4321 furn_set( point( SEEX, SEEY - 1 ), f_table );
4322 furn_set( point( SEEX - 1, SEEY ), f_table );
4323 furn_set( point( SEEX, SEEY ), f_table );
4324 if( loot_variant <= 67 ) {
4325 spawn_item( point( SEEX, SEEY - 1 ), "UPS_off" );
4326 spawn_item( point( SEEX, SEEY - 1 ), "heavy_battery_cell" );
4327 spawn_item( point( SEEX - 1, SEEY ), "v29" );
4328 spawn_item( point( SEEX - 1, SEEY ), "laser_rifle", dice( 1, 0 ) );
4329 spawn_item( point( SEEX, SEEY ), "plasma_gun" );
4330 spawn_item( point( SEEX, SEEY ), "plasma" );
4331 spawn_item( point( SEEX - 1, SEEY ), "recipe_atomic_battery" );
4332 spawn_item( point( SEEX + 1, SEEY ), "plut_cell", rng( 8, 20 ) );
4333 } else if( loot_variant < 89 ) {
4334 spawn_item( point( SEEX - 1, SEEY - 1 ), "mininuke", dice( 3, 6 ) );
4335 spawn_item( point( SEEX, SEEY - 1 ), "mininuke", dice( 3, 6 ) );
4336 spawn_item( point( SEEX - 1, SEEY ), "mininuke", dice( 3, 6 ) );
4337 spawn_item( point( SEEX, SEEY ), "mininuke", dice( 3, 6 ) );
4338 spawn_item( point( SEEX, SEEY ), "recipe_atomic_battery" );
4339 spawn_item( point( SEEX + 1, SEEY ), "plut_cell", rng( 8, 20 ) );
4340 } else { // loot_variant between 90 and 96.
4341 spawn_item( point( SEEX - 1, SEEY - 1 ), "rm13_armor" );
4342 spawn_item( point( SEEX, SEEY - 1 ), "plut_cell" );
4343 spawn_item( point( SEEX - 1, SEEY ), "plut_cell" );
4344 spawn_item( point( SEEX, SEEY ), "recipe_caseless" );
4345 }
4346 } else { // 4% of the lab ends will be this weapons testing end.
4347 mtrap_set( this, point( SEEX - 4, SEEY - 3 ), tr_dissector );
4348 mtrap_set( this, point( SEEX + 3, SEEY - 3 ), tr_dissector );
4349 mtrap_set( this, point( SEEX - 4, SEEY + 2 ), tr_dissector );
4350 mtrap_set( this, point( SEEX + 3, SEEY + 2 ), tr_dissector );
4351
4352 furn_set( point( SEEX - 2, SEEY - 1 ), f_rack );
4353 furn_set( point( SEEX - 1, SEEY - 1 ), f_rack );
4354 furn_set( point( SEEX, SEEY - 1 ), f_rack );
4355 furn_set( point( SEEX + 1, SEEY - 1 ), f_rack );
4356 furn_set( point( SEEX - 2, SEEY ), f_rack );
4357 furn_set( point( SEEX - 1, SEEY ), f_rack );
4358 furn_set( point( SEEX, SEEY ), f_rack );
4359 furn_set( point( SEEX + 1, SEEY ), f_rack );
4360 line( this, t_reinforced_door_glass_c, point( SEEX - 2, SEEY - 2 ),
4361 point( SEEX + 1, SEEY - 2 ) );
4362 line( this, t_reinforced_door_glass_c, point( SEEX - 2, SEEY + 1 ),
4363 point( SEEX + 1, SEEY + 1 ) );
4364 line( this, t_reinforced_glass, point( SEEX - 3, SEEY - 2 ), point( SEEX - 3, SEEY + 1 ) );
4365 line( this, t_reinforced_glass, point( SEEX + 2, SEEY - 2 ), point( SEEX + 2, SEEY + 1 ) );
4366 place_items( item_group_id( "ammo_rare" ), 96, point( SEEX - 2, SEEY - 1 ),
4367 point( SEEX + 1, SEEY - 1 ), false, calendar::start_of_cataclysm );
4368 place_items( item_group_id( "guns_rare" ), 96, point( SEEX - 2, SEEY ), point( SEEX + 1, SEEY ),
4369 false,
4371 spawn_item( point( SEEX + 1, SEEY ), "plut_cell", rng( 1, 10 ) );
4372 }
4373 break;
4374 // Netherworld access
4375 case 3: {
4376 bool monsters_end = false;
4377 if( !one_in( 4 ) ) { // Trapped netherworld monsters
4378 monsters_end = true;
4379 tw = rng( SEEY + 3, SEEY + 5 );
4380 bw = tw + 4;
4381 lw = rng( SEEX - 6, SEEX - 2 );
4382 rw = lw + 6;
4383 for( int i = lw; i <= rw; i++ ) {
4384 for( int j = tw; j <= bw; j++ ) {
4385 if( j == tw || j == bw ) {
4386 if( ( i - lw ) % 2 == 0 ) {
4387 ter_set( point( i, j ), t_concrete_wall );
4388 } else {
4389 ter_set( point( i, j ), t_reinforced_glass );
4390 }
4391 } else if( ( i - lw ) % 2 == 0 ) {
4392 ter_set( point( i, j ), t_concrete_wall );
4393 } else if( j == tw + 2 ) {
4394 ter_set( point( i, j ), t_concrete_wall );
4395 } else { // Empty space holds monsters!
4396 place_spawns( GROUP_NETHER, 1, point( i, j ), point( i, j ), 1, true );
4397 }
4398 }
4399 }
4400 }
4401
4402 spawn_item( point( SEEX - 1, 8 ), "id_science" );
4403 tmpcomp = add_computer( tripoint( SEEX, 8, abs_sub.z ),
4404 _( "Sub-prime contact console" ), 7 );
4405 if( monsters_end ) { //only add these options when there are monsters.
4406 tmpcomp->add_option( _( "Terminate Specimens" ), COMPACT_TERMINATE, 2 );
4407 tmpcomp->add_option( _( "Release Specimens" ), COMPACT_RELEASE, 3 );
4408 }
4409 tmpcomp->add_option( _( "Toggle Portal" ), COMPACT_PORTAL, 8 );
4410 tmpcomp->add_option( _( "Activate Resonance Cascade" ), COMPACT_CASCADE, 10 );
4411 tmpcomp->add_failure( COMPFAIL_MANHACKS );
4412 tmpcomp->add_failure( COMPFAIL_SECUBOTS );
4413 tmpcomp->set_access_denied_msg(
4414 _( "ERROR! Access denied! Unauthorized access will be met with lethal force!" ) );
4415 ter_set( point( SEEX - 2, 4 ), t_radio_tower );
4416 ter_set( point( SEEX + 1, 4 ), t_radio_tower );
4417 ter_set( point( SEEX - 2, 7 ), t_radio_tower );
4418 ter_set( point( SEEX + 1, 7 ), t_radio_tower );
4419 }
4420 break;
4421
4422 // Bionics
4423 case 4: {
4424 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( 6, 6 ), point( 6, 6 ), 1, true );
4425 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( SEEX * 2 - 7, 6 ),
4426 point( SEEX * 2 - 7, 6 ), 1, true );
4427 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( 6, SEEY * 2 - 7 ),
4428 point( 6, SEEY * 2 - 7 ), 1, true );
4429 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( SEEX * 2 - 7, SEEY * 2 - 7 ),
4430 point( SEEX * 2 - 7, SEEY * 2 - 7 ), 1, true );
4431 mtrap_set( this, point( SEEX - 2, SEEY - 2 ), tr_dissector );
4432 mtrap_set( this, point( SEEX + 1, SEEY - 2 ), tr_dissector );
4433 mtrap_set( this, point( SEEX - 2, SEEY + 1 ), tr_dissector );
4434 mtrap_set( this, point( SEEX + 1, SEEY + 1 ), tr_dissector );
4435 square_furn( this, f_counter, point( SEEX - 1, SEEY - 1 ), point( SEEX, SEEY ) );
4436 int item_count = 0;
4437 while( item_count < 5 ) {
4438 item_count += place_items( item_group_id( "bionics" ), 75, point( SEEX - 1, SEEY - 1 ),
4439 point( SEEX, SEEY ), false, calendar::start_of_cataclysm ).size();
4440 }
4441 line( this, t_reinforced_glass, point( SEEX - 2, SEEY - 2 ), point( SEEX + 1, SEEY - 2 ) );
4442 line( this, t_reinforced_glass, point( SEEX - 2, SEEY + 1 ), point( SEEX + 1, SEEY + 1 ) );
4443 line( this, t_reinforced_glass, point( SEEX - 2, SEEY - 1 ), point( SEEX - 2, SEEY ) );
4444 line( this, t_reinforced_glass, point( SEEX + 1, SEEY - 1 ), point( SEEX + 1, SEEY ) );
4445 spawn_item( point( SEEX - 4, SEEY - 3 ), "id_science" );
4446 ter_set( point( SEEX - 3, SEEY - 3 ), t_console );
4447 tmpcomp = add_computer( tripoint( SEEX - 3, SEEY - 3, abs_sub.z ),
4448 _( "Bionic access" ), 3 );
4449 tmpcomp->add_option( _( "Manifest" ), COMPACT_LIST_BIONICS, 0 );
4450 tmpcomp->add_option( _( "Open Chambers" ), COMPACT_RELEASE, 5 );
4451 tmpcomp->add_failure( COMPFAIL_MANHACKS );
4452 tmpcomp->add_failure( COMPFAIL_SECUBOTS );
4453 tmpcomp->set_access_denied_msg(
4454 _( "ERROR! Access denied! Unauthorized access will be met with lethal force!" ) );
4455 }
4456 break;
4457
4458 // CVD Forge
4459 case 5:
4460 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( 6, 6 ), point( 6, 6 ), 1, true );
4461 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( SEEX * 2 - 7, 6 ),
4462 point( SEEX * 2 - 7, 6 ), 1, true );
4463 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( 6, SEEY * 2 - 7 ),
4464 point( 6, SEEY * 2 - 7 ), 1, true );
4465 place_spawns( GROUP_ROBOT_SECUBOT, 1, point( SEEX * 2 - 7, SEEY * 2 - 7 ),
4466 point( SEEX * 2 - 7, SEEY * 2 - 7 ), 1, true );
4467 line( this, t_cvdbody, point( SEEX - 2, SEEY - 2 ), point( SEEX - 2, SEEY + 1 ) );
4468 line( this, t_cvdbody, point( SEEX - 1, SEEY - 2 ), point( SEEX - 1, SEEY + 1 ) );
4469 line( this, t_cvdbody, point( SEEX, SEEY - 1 ), point( SEEX, SEEY + 1 ) );
4470 line( this, t_cvdbody, point( SEEX + 1, SEEY - 2 ), point( SEEX + 1, SEEY + 1 ) );
4471 ter_set( point( SEEX, SEEY - 2 ), t_cvdmachine );
4472 spawn_item( point( SEEX, SEEY - 3 ), "id_science" );
4473 break;
4474 }
4475 } // end use_hardcoded_lab_finale
4476
4477 // Handle stairs in the unlikely case they are needed.
4478
4479 const auto maybe_insert_stairs = [this]( const oter_id & terrain, const ter_id & t_stair_type ) {
4480 if( is_ot_match( "stairs", terrain, ot_match_type::contains ) ) {
4481 const auto predicate = [this]( const tripoint & p ) {
4482 return ter( p ) == t_thconc_floor && furn( p ) == f_null &&
4483 tr_at( p ).is_null();
4484 };
4485 const auto range = points_in_rectangle( { 0, 0, abs_sub.z },
4486 { SEEX * 2 - 2, SEEY * 2 - 2, abs_sub.z } );
4487 if( const auto p = random_point( range, predicate ) ) {
4488 ter_set( *p, t_stair_type );
4489 }
4490 }
4491 };
4492 maybe_insert_stairs( dat.above(), t_stairs_up );
4493 maybe_insert_stairs( terrain_type, t_stairs_down );
4494
4495 int light_odds = 0;
4496 // central labs are always fully lit, other labs have half chance of some lights.
4497 if( central_lab ) {
4498 light_odds = 1;
4499 } else if( one_in( 2 ) ) {
4500 light_odds = std::pow( rng( 1, 12 ), 1.6 );
4501 }
4502 if( light_odds > 0 ) {
4503 for( int i = 0; i < SEEX * 2; i++ ) {
4504 for( int j = 0; j < SEEY * 2; j++ ) {
4505 if( !( ( i * j ) % 2 || ( i + j ) % 4 ) && one_in( light_odds ) ) {
4506 if( t_thconc_floor == ter( point( i, j ) ) || t_strconc_floor == ter( point( i, j ) ) ) {
4508 }
4509 }
4510 }
4511 }
4512 }
4513 }
4514}
void set_access_denied_msg(const std::string &new_msg)
Definition: computer.cpp:97
void add_failure(const computer_failure &failure)
Definition: computer.cpp:87
void add_option(const computer_option &opt)
Definition: computer.cpp:76
void set_temperature(const tripoint &p, int temperature)
Definition: map.cpp:4061
computer * add_computer(const tripoint &p, const std::string &name, int security)
Definition: mapgen.cpp:5783
void i_clear(const tripoint &p)
Definition: map.cpp:4109
std::vector< item * > place_items(const item_group_id &loc, int chance, const tripoint &p1, const tripoint &p2, bool ongrass, const time_point &turn, int magazine=0, int ammo=0)
Place items from item group in the rectangle f - t.
Definition: mapgen.cpp:5513
void trap_set(const tripoint &p, const trap_id &type)
Definition: map.cpp:5169
bool generate(mapgendata &dat, const std::string &key, const int hardcoded_weight=0) const
Definition: mapgen.cpp:340
int zlevel() const
Definition: mapgendata.h:99
@ COMPACT_RELEASE
Definition: computer.h:42
@ COMPACT_TERMINATE
Definition: computer.h:59
@ COMPACT_PORTAL
Definition: computer.h:40
@ COMPACT_CASCADE
Definition: computer.h:19
@ COMPACT_LIST_BIONICS
Definition: computer.h:32
@ COMPFAIL_SECUBOTS
Definition: computer.h:77
@ COMPFAIL_MANHACKS
Definition: computer.h:74
void draw_rough_circle(std::function< void(const point &)>set, const point &p, int rad)
@ prefix
Definition: enums.h:79
@ contains
Definition: enums.h:83
field_type_id fd_gas_vent
Definition: field_type.cpp:350
field_type_id fd_smoke_vent
Definition: field_type.cpp:385
ter_id t_door_glass_frosted_c
Definition: mapdata.cpp:664
ter_id t_cvdmachine
Definition: mapdata.cpp:712
ter_id t_slime
Definition: mapdata.cpp:637
ter_id t_strconc_floor
Definition: mapdata.cpp:631
furn_id f_table
Definition: mapdata.cpp:1104
furn_id f_fungal_clump
Definition: mapdata.cpp:1116
ter_id t_cvdbody
Definition: mapdata.cpp:712
ter_id t_radio_tower
Definition: mapdata.cpp:703
ter_id t_fungus_floor_in
Definition: mapdata.cpp:690
furn_id f_counter
Definition: mapdata.cpp:1105
furn_id f_rack
Definition: mapdata.cpp:1107
ter_id t_fungus_wall
Definition: mapdata.cpp:690
ter_id t_reinforced_glass
Definition: mapdata.cpp:650
ter_id t_concrete_wall
Definition: mapdata.cpp:646
ter_id t_floor
Definition: mapdata.cpp:632
ter_id t_thconc_floor_olight
Definition: mapdata.cpp:631
ter_id t_bars
Definition: mapdata.cpp:653
ter_id t_thconc_floor
Definition: mapdata.cpp:631
furn_id f_rubble_rock
Definition: mapdata.cpp:1097
ter_id t_stairs_up
Definition: mapdata.cpp:718
ter_id t_stairs_down
Definition: mapdata.cpp:718
ter_id t_marloss
Definition: mapdata.cpp:690
ter_id t_door_metal_locked
Definition: mapdata.cpp:662
ter_id t_card_science
Definition: mapdata.cpp:722
ter_id t_reinforced_door_glass_c
Definition: mapdata.cpp:652
furn_id f_flower_fungal
Definition: mapdata.cpp:1116
void square_furn(map *m, const furn_id &type, const point &p1, const point &p2)
Definition: mapgen.cpp:6475
static const mongroup_id GROUP_ROBOT_SECUBOT("GROUP_ROBOT_SECUBOT")
static const mongroup_id GROUP_HAZMATBOT("GROUP_HAZMATBOT")
static const mongroup_id GROUP_NETHER("GROUP_NETHER")
static const mongroup_id GROUP_TURRET("GROUP_TURRET")
void line(map *m, const ter_id &type, const point &p1, const point &p2)
Definition: mapgen.cpp:6455
static void science_room(map *m, const point &p1, const point &p2, int z, int rotate)
Definition: mapgen.cpp:5949
const int SOUTH_EDGE
Definition: mapgen.cpp:2924
const int EAST_EDGE
Definition: mapgen.cpp:2925
static mapgen_factory oter_mapgen
Definition: mapgen.cpp:349
static const mongroup_id GROUP_FUNGI_FUNGALOID("GROUP_FUNGI_FUNGALOID")
static const mongroup_id GROUP_LAB("GROUP_LAB")
static const trap_str_id tr_portal("tr_portal")
static const trap_str_id tr_dissector("tr_dissector")
const time_point & start_of_cataclysm
Definition: calendar.cpp:33
quantity< int, temperature_in_millidegree_celsius_tag > temperature
std::pair< item, int > item_count
Definition: pickup.cpp:63
int dice(int number, int sides)
Definition: rng.cpp:85
V random_entry(const C &container, D default_value)
Returns a random entry in the container.
Definition: rng.h:88

References _, mapgendata::above(), abs_sub, add_computer(), computer::add_failure(), add_field(), add_item_or_charges(), computer::add_option(), ARTPROP_BREATHING, ARTPROP_CRACKLING, ARTPROP_GLOWING, ARTPROP_SCALED, ARTPROP_WARM, ARTPROP_WHISPERING, center, item::charges, COMPACT_CASCADE, COMPACT_LIST_BIONICS, COMPACT_PORTAL, COMPACT_RELEASE, COMPACT_TERMINATE, COMPFAIL_MANHACKS, COMPFAIL_SECUBOTS, connects_to(), contains, create_anomaly(), debugmsg, destroy(), dice(), draw_circle(), draw_rough_circle(), mapgendata::east(), EAST_EDGE, f_counter, f_flower_fungal, f_fungal_clump, f_null, f_rack, f_rubble_rock, f_table, fd_gas_vent, fd_smoke_vent, furn(), furn_set(), mapgen_factory::generate(), get_abs_sub(), GROUP_FUNGI_FUNGALOID, GROUP_HAZMATBOT, GROUP_LAB, GROUP_NETHER, GROUP_ROBOT_SECUBOT, GROUP_TURRET, has_flag(), has_flag_furn(), has_flag_ter(), i_clear(), trap::is_null(), is_ot_match(), line(), make_rubble(), mtrap_set(), mapgendata::north(), one_in(), oter_mapgen, place_items(), place_spawns(), point_west, point_zero, points_in_rectangle(), prefix, random_entry(), random_point(), rng(), rotate(), science_room(), SEEX, SEEY, computer::set_access_denied_msg(), set_radiation(), set_temperature(), mapgendata::south(), SOUTH_EDGE, spawn_item(), square_furn(), calendar::start_of_cataclysm, t_bars, t_card_science, t_concrete_wall, t_console, t_cvdbody, t_cvdmachine, t_dirt, t_door_glass_frosted_c, t_door_metal_c, t_door_metal_locked, t_floor, t_fungus_floor_in, t_fungus_wall, t_marloss, t_radio_tower, t_reinforced_door_glass_c, t_reinforced_glass, t_rock_floor, t_sewage, t_slime, t_stairs_down, t_stairs_up, t_strconc_floor, t_thconc_floor, t_thconc_floor_olight, t_water_sh, ter(), ter_set(), terrain, mapgendata::terrain_type(), tr_at(), tr_dissector, tr_portal, trap_set(), type, mapgendata::west(), tripoint::z, and mapgendata::zlevel().

Referenced by draw_map().

◆ draw_line_furn()

void map::draw_line_furn ( const furn_id type,
const point p1,
const point p2 
)

Definition at line 8335 of file map.cpp.

8336{
8337 draw_line( [this, type]( const point & p ) {
8338 this->furn_set( p, type );
8339 }, p1, p2 );
8340}
void draw_line(std::function< void(const point &)>set, const point &p1, const point &p2)

References draw_line(), furn_set(), and type.

Referenced by jmapgen_setmap::apply(), and line_furn().

◆ draw_line_ter()

void map::draw_line_ter ( const ter_id type,
const point p1,
const point p2 
)

Definition at line 8328 of file map.cpp.

8329{
8330 draw_line( [this, type]( const point & p ) {
8331 this->ter_set( p, type );
8332 }, p1, p2 );
8333}

References draw_line(), ter_set(), and type.

Referenced by jmapgen_setmap::apply(), and line().

◆ draw_map()

void map::draw_map ( mapgendata dat)
protected

Definition at line 2884 of file mapgen.cpp.

2885{
2886 const oter_id &terrain_type = dat.terrain_type();
2887 const std::string function_key = terrain_type->get_mapgen_id();
2888 bool found = true;
2889
2890 const bool generated = run_mapgen_func( function_key, dat );
2891
2892 if( !generated ) {
2893 if( is_ot_match( "slimepit", terrain_type, ot_match_type::prefix ) ||
2894 is_ot_match( "slime_pit", terrain_type, ot_match_type::prefix ) ) {
2895 draw_slimepit( dat );
2896 } else if( is_ot_match( "triffid", terrain_type, ot_match_type::prefix ) ) {
2897 draw_triffid( dat );
2898 } else if( is_ot_match( "office", terrain_type, ot_match_type::prefix ) ) {
2899 draw_office_tower( dat );
2900 } else if( is_ot_match( "temple", terrain_type, ot_match_type::prefix ) ) {
2901 draw_temple( dat );
2902 } else if( is_ot_match( "mine", terrain_type, ot_match_type::prefix ) ) {
2903 draw_mine( dat );
2904 } else if( is_ot_match( "anthill", terrain_type, ot_match_type::contains ) ) {
2905 draw_anthill( dat );
2906 } else if( is_ot_match( "lab", terrain_type, ot_match_type::contains ) ) {
2907 draw_lab( dat );
2908 } else {
2909 found = false;
2910 }
2911 }
2912
2913 if( !found ) {
2914 // not one of the hardcoded ones!
2915 // load from JSON???
2916 debugmsg( "Error: tried to generate map for omtype %s, \"%s\" (id_mapgen %s)",
2917 terrain_type.id().c_str(), terrain_type->get_name(), function_key.c_str() );
2918 fill_background( this, t_floor );
2919 }
2920
2921 draw_connections( dat );
2922}
void draw_office_tower(mapgendata &dat)
Definition: mapgen.cpp:2927
void draw_mine(mapgendata &dat)
Definition: mapgen.cpp:4762
void draw_triffid(mapgendata &dat)
Definition: mapgen.cpp:5087
void draw_anthill(mapgendata &dat)
Definition: mapgen.cpp:5025
void draw_slimepit(mapgendata &dat)
Definition: mapgen.cpp:5043
void draw_lab(mapgendata &dat)
Definition: mapgen.cpp:3515
void draw_connections(mapgendata &dat)
Definition: mapgen.cpp:5235
void draw_temple(mapgendata &dat)
Definition: mapgen.cpp:4516
void fill_background(map *m, const ter_id &type)
Definition: mapgen.cpp:6463
bool run_mapgen_func(const std::string &mapgen_id, mapgendata &dat)
Definition: mapgen.cpp:6687
std::string get_name() const
Definition: omdata.h:205
std::string get_mapgen_id() const
Definition: overmap.cpp:797

References string_id< T >::c_str(), contains, debugmsg, draw_anthill(), draw_connections(), draw_lab(), draw_mine(), draw_office_tower(), draw_slimepit(), draw_temple(), draw_triffid(), fill_background(), oter_t::get_mapgen_id(), oter_t::get_name(), int_id< T >::id(), is_ot_match(), prefix, run_mapgen_func(), t_floor, and mapgendata::terrain_type().

Referenced by generate().

◆ draw_maptile()

bool map::draw_maptile ( const catacurses::window w,
const tripoint p,
const maptile tile,
const drawsq_params params 
) const
private

Internal version of the drawsq.

Keeps a cached maptile for less re-getting. Returns false if it has drawn all it should, true if draw_from_above should be called after.

Definition at line 5857 of file map.cpp.

5859{
5860 drawsq_params param = params;
5861 nc_color tercol;
5862 const ter_t &curr_ter = curr_maptile.get_ter_t();
5863 const furn_t &curr_furn = curr_maptile.get_furn_t();
5864 const trap &curr_trap = curr_maptile.get_trap().obj();
5865 const field &curr_field = curr_maptile.get_field();
5866 int sym;
5867 bool hi = false;
5868 bool graf = false;
5869 bool draw_item_sym = false;
5870
5871 int terrain_sym;
5872 if( curr_ter.has_flag( TFLAG_AUTO_WALL_SYMBOL ) ) {
5873 terrain_sym = determine_wall_corner( p );
5874 } else {
5875 terrain_sym = curr_ter.symbol();
5876 }
5877
5878 if( curr_furn.id ) {
5879 sym = curr_furn.symbol();
5880 tercol = curr_furn.color();
5881 } else {
5882 sym = terrain_sym;
5883 tercol = curr_ter.color();
5884 }
5885 if( curr_ter.has_flag( TFLAG_SWIMMABLE ) && curr_ter.has_flag( TFLAG_DEEP_WATER ) &&
5886 !g->u.is_underwater() ) {
5887 param.show_items( false ); // Can only see underwater items if WE are underwater
5888 }
5889 // If there's a trap here, and we have sufficient perception, draw that instead
5890 if( curr_trap.can_see( p, g->u ) ) {
5891 tercol = curr_trap.color;
5892 if( curr_trap.sym == '%' ) {
5893 switch( rng( 1, 5 ) ) {
5894 case 1:
5895 sym = '*';
5896 break;
5897 case 2:
5898 sym = '0';
5899 break;
5900 case 3:
5901 sym = '8';
5902 break;
5903 case 4:
5904 sym = '&';
5905 break;
5906 case 5:
5907 sym = '+';
5908 break;
5909 }
5910 } else {
5911 sym = curr_trap.sym;
5912 }
5913 }
5914 if( curr_field.field_count() > 0 ) {
5915 const field_type_id &fid = curr_field.displayed_field_type();
5916 const field_entry *fe = curr_field.find_field( fid );
5917 const auto field_symbol = fid->get_symbol();
5918 if( field_symbol == "&" || fe == nullptr ) {
5919 // Do nothing, a '&' indicates invisible fields.
5920 } else if( field_symbol == "*" ) {
5921 // A random symbol.
5922 switch( rng( 1, 5 ) ) {
5923 case 1:
5924 sym = '*';
5925 break;
5926 case 2:
5927 sym = '0';
5928 break;
5929 case 3:
5930 sym = '8';
5931 break;
5932 case 4:
5933 sym = '&';
5934 break;
5935 case 5:
5936 sym = '+';
5937 break;
5938 }
5939 } else {
5940 // A field symbol '%' indicates the field should not hide
5941 // items/terrain. When the symbol is not '%' it will
5942 // hide items (the color is still inverted if there are items,
5943 // but the tile symbol is not changed).
5944 // draw_item_sym indicates that the item symbol should be used
5945 // even if sym is not '.'.
5946 // As we don't know at this stage if there are any items
5947 // (that are visible to the player!), we always set the symbol.
5948 // If there are items and the field does not hide them,
5949 // the code handling items will override it.
5950 draw_item_sym = ( field_symbol == "'%" );
5951 // If field display_priority is > 1, and the field is set to hide items,
5952 //draw the field as it obscures what's under it.
5953 if( ( field_symbol != "%" && fid.obj().priority > 1 ) || ( field_symbol != "%" &&
5954 sym == '.' ) ) {
5955 // default terrain '.' and
5956 // non-default field symbol -> field symbol overrides terrain
5957 sym = field_symbol[0];
5958 }
5959 tercol = fe->color();
5960 }
5961 }
5962
5963 // TODO: change the local variable sym to std::string and use it instead of this hack.
5964 // Currently this are different variables because terrain/... uses int as symbol type and
5965 // item now use string. Ideally they should all be strings.
5966 std::string item_sym;
5967
5968 // If there are items here, draw those instead
5969 if( param.show_items() && curr_maptile.get_item_count() > 0 && sees_some_items( p, g->u ) ) {
5970 // if there's furniture/terrain/trap/fields (sym!='.')
5971 // and we should not override it, then only highlight the square
5972 if( sym != '.' && sym != '%' && !draw_item_sym ) {
5973 hi = true;
5974 } else {
5975 // otherwise override with the symbol of the last item
5976 item_sym = curr_maptile.get_uppermost_item().symbol();
5977 if( !draw_item_sym ) {
5978 tercol = curr_maptile.get_uppermost_item().color();
5979 }
5980 if( curr_maptile.get_item_count() > 1 ) {
5981 param.highlight( !param.highlight() );
5982 }
5983 }
5984 }
5985
5986 int memory_sym = sym;
5987 int veh_part = 0;
5988 const vehicle *veh = veh_at_internal( p, veh_part );
5989 if( veh != nullptr ) {
5990 sym = special_symbol( veh->face.dir_symbol( veh->part_sym( veh_part ) ) );
5991 tercol = veh->part_color( veh_part );
5992 item_sym.clear(); // clear the item symbol so `sym` is used instead.
5993
5994 if( !veh->forward_velocity() && !veh->player_in_control( g->u ) ) {
5995 memory_sym = sym;
5996 }
5997 }
5998
5999 if( param.memorize() && check_and_set_seen_cache( p ) ) {
6000 g->u.memorize_symbol( getabs( p ), memory_sym );
6001 }
6002
6003 // If there's graffiti here, change background color
6004 if( curr_maptile.has_graffiti() ) {
6005 graf = true;
6006 }
6007
6008 const auto u_vision = g->u.get_vision_modes();
6009 if( u_vision[BOOMERED] ) {
6010 tercol = c_magenta;
6011 } else if( u_vision[NV_GOGGLES] ) {
6012 tercol = param.bright_light() ? c_white : c_light_green;
6013 } else if( param.low_light() ) {
6014 tercol = c_dark_gray;
6015 } else if( u_vision[DARKNESS] ) {
6016 tercol = c_dark_gray;
6017 }
6018
6019 if( param.highlight() ) {
6020 tercol = invert_color( tercol );
6021 } else if( hi ) {
6022 tercol = hilite( tercol );
6023 } else if( graf ) {
6024 tercol = red_background( tercol );
6025 }
6026
6027 if( item_sym.empty() && sym == ' ' ) {
6028 if( !zlevels || p.z <= -OVERMAP_DEPTH || !curr_ter.has_flag( TFLAG_NO_FLOOR ) ) {
6029 // Print filler symbol
6030 sym = ' ';
6031 tercol = c_black;
6032 } else {
6033 // Draw tile underneath this one instead
6034 return false;
6035 }
6036 }
6037
6038 if( params.output() ) {
6039 if( item_sym.empty() ) {
6040 wputch( w, tercol, sym );
6041 } else {
6042 wprintz( w, tercol, item_sym );
6043 }
6044 }
6045 return true;
6046}
nc_color color() const
Definition: field.cpp:94
field_entry * find_field(const field_type_id &field_type_to_find)
Returns a field entry corresponding to the field_type_id parameter passed in.
Definition: field.cpp:153
field_type_id displayed_field_type() const
Returns field type that should be drawn.
Definition: field.cpp:275
unsigned int field_count() const
Definition: field.cpp:246
bool check_and_set_seen_cache(const tripoint &p) const
Definition: map.h:491
bool sees_some_items(const tripoint &p, const Creature &who) const
Check if creature can see some items at p.
Definition: map.cpp:4717
nc_color part_color(int p, bool exact=false) const
bool player_in_control(const Character &p) const
Definition: vehicle.cpp:277
float forward_velocity() const
nc_color red_background(const nc_color &c)
Definition: color.cpp:515
nc_color hilite(const nc_color &c)
Definition: color.cpp:509
@ TFLAG_SWIMMABLE
Definition: mapdata.h:279
void wprintz(const catacurses::window &w, const nc_color &FG, const std::string &text)
Definition: output.cpp:2043
constexpr drawsq_params & show_items(bool v)
Whether to draw items on the tile.
Definition: map.h:212
int priority
Definition: field_type.h:176
std::string get_symbol(int level=0) const
Definition: field_type.h:195
furn_str_id id
Definition: mapdata.h:496
nc_color color
Definition: trap.h:93
int sym
Definition: trap.h:92

References BOOMERED, drawsq_params::bright_light(), c_black, c_dark_gray, c_light_green, c_magenta, c_white, trap::can_see(), check_and_set_seen_cache(), field_entry::color(), item::color(), map_data_common_t::color(), trap::color, DARKNESS, determine_wall_corner(), tileray::dir_symbol(), field::displayed_field_type(), vehicle::face, field::field_count(), field::find_field(), vehicle::forward_velocity(), g, maptile::get_field(), maptile::get_furn_t(), maptile::get_item_count(), field_type::get_symbol(), maptile::get_ter_t(), maptile::get_trap(), maptile::get_uppermost_item(), getabs(), map_data_common_t::has_flag(), maptile::has_graffiti(), drawsq_params::highlight(), hilite(), furn_t::id, invert_color(), drawsq_params::low_light(), drawsq_params::memorize(), NV_GOGGLES, int_id< T >::obj(), drawsq_params::output(), OVERMAP_DEPTH, vehicle::part_color(), vehicle::part_sym(), vehicle::player_in_control(), field_type::priority, red_background(), rng(), sees_some_items(), drawsq_params::show_items(), special_symbol(), trap::sym, item::symbol(), map_data_common_t::symbol(), TFLAG_AUTO_WALL_SYMBOL, TFLAG_DEEP_WATER, TFLAG_NO_FLOOR, TFLAG_SWIMMABLE, veh_at_internal(), wprintz(), wputch(), tripoint::z, and zlevels.

Referenced by draw(), and drawsq().

◆ draw_mine()

void map::draw_mine ( mapgendata dat)
protected

Definition at line 4762 of file mapgen.cpp.

4763{
4764 const oter_id &terrain_type = dat.terrain_type();
4765 if( terrain_type == "mine" || terrain_type == "mine_down" ) {
4766 if( is_ot_match( "mine", dat.north(), ot_match_type::prefix ) ) {
4767 dat.n_fac = ( one_in( 10 ) ? 0 : -2 );
4768 } else {
4769 dat.n_fac = 4;
4770 }
4771 if( is_ot_match( "mine", dat.east(), ot_match_type::prefix ) ) {
4772 dat.e_fac = ( one_in( 10 ) ? 0 : -2 );
4773 } else {
4774 dat.e_fac = 4;
4775 }
4776 if( is_ot_match( "mine", dat.south(), ot_match_type::prefix ) ) {
4777 dat.s_fac = ( one_in( 10 ) ? 0 : -2 );
4778 } else {
4779 dat.s_fac = 4;
4780 }
4781 if( is_ot_match( "mine", dat.west(), ot_match_type::prefix ) ) {
4782 dat.w_fac = ( one_in( 10 ) ? 0 : -2 );
4783 } else {
4784 dat.w_fac = 4;
4785 }
4786
4787 for( int i = 0; i < SEEX * 2; i++ ) {
4788 for( int j = 0; j < SEEY * 2; j++ ) {
4789 if( i >= dat.w_fac + rng( 0, 2 ) && i <= EAST_EDGE - dat.e_fac - rng( 0, 2 ) &&
4790 j >= dat.n_fac + rng( 0, 2 ) && j <= SOUTH_EDGE - dat.s_fac - rng( 0, 2 ) &&
4791 i + j >= 4 && ( SEEX * 2 - i ) + ( SEEY * 2 - j ) >= 6 ) {
4792 ter_set( point( i, j ), t_rock_floor );
4793 } else {
4794 ter_set( point( i, j ), t_rock );
4795 }
4796 }
4797 }
4798
4799 // Not an entrance; maybe some hazards!
4800 switch( rng( 0, 4 ) ) {
4801 case 0:
4802 break; // Nothing! Lucky!
4803
4804 case 1: {
4805 // Toxic gas
4806 point gas_vent_location( rng( 9, 14 ), rng( 9, 14 ) );
4807 ter_set( point( gas_vent_location ), t_rock );
4808 add_field( { gas_vent_location, abs_sub.z }, fd_gas_vent, 2 );
4809 }
4810 break;
4811
4812 case 2: {
4813 // Lava
4814 point start_location( rng( 6, SEEX ), rng( 6, SEEY ) );
4815 point end_location( rng( SEEX + 1, SEEX * 2 - 7 ), rng( SEEY + 1, SEEY * 2 - 7 ) );
4816 const int num = rng( 2, 4 );
4817 for( int i = 0; i < num; i++ ) {
4818 int lx1 = start_location.x + rng( -1, 1 );
4819 int lx2 = end_location.x + rng( -1, 1 );
4820 int ly1 = start_location.y + rng( -1, 1 );
4821 int ly2 = end_location.y + rng( -1, 1 );
4822 line( this, t_lava, point( lx1, ly1 ), point( lx2, ly2 ) );
4823 }
4824 }
4825 break;
4826
4827 case 3: {
4828 // Wrecked equipment
4829 point wreck_location( rng( 9, 14 ), rng( 9, 14 ) );
4830 for( int i = wreck_location.x - 3; i < wreck_location.x + 3; i++ ) {
4831 for( int j = wreck_location.y - 3; j < wreck_location.y + 3; j++ ) {
4832 if( !one_in( 4 ) ) {
4833 make_rubble( tripoint( i, j, abs_sub.z ), f_wreckage, true );
4834 }
4835 }
4836 }
4837 place_items( item_group_id( "wreckage" ), 70, wreck_location + point( -3, -3 ),
4838 wreck_location + point( 2, 2 ), false, calendar::start_of_cataclysm );
4839 }
4840 break;
4841
4842 case 4: {
4843 // Dead miners
4844 const int num_bodies = rng( 4, 8 );
4845 for( int i = 0; i < num_bodies; i++ ) {
4846 if( const auto body = random_point( *this, [this]( const tripoint & p ) {
4847 return move_cost( p ) == 2;
4848 } ) ) {
4849 add_item( *body, item::make_corpse() );
4850 place_items( item_group_id( "mine_equipment" ), 60, *body, *body,
4852 }
4853 }
4854 }
4855 break;
4856
4857 }
4858
4859 if( terrain_type == "mine_down" ) { // Don't forget to build a slope down!
4860 std::vector<direction> open;
4861 if( dat.n_fac == 4 ) {
4862 open.push_back( direction::NORTH );
4863 }
4864 if( dat.e_fac == 4 ) {
4865 open.push_back( direction::EAST );
4866 }
4867 if( dat.s_fac == 4 ) {
4868 open.push_back( direction::SOUTH );
4869 }
4870 if( dat.w_fac == 4 ) {
4871 open.push_back( direction::WEST );
4872 }
4873
4874 if( open.empty() ) { // We'll have to build it in the center
4875 int tries = 0;
4876 point p;
4877 bool okay = true;
4878 do {
4879 p.x = rng( SEEX - 6, SEEX + 1 );
4880 p.y = rng( SEEY - 6, SEEY + 1 );
4881 okay = true;
4882 for( int i = p.x; ( i <= p.x + 5 ) && okay; i++ ) {
4883 for( int j = p.y; ( j <= p.y + 5 ) && okay; j++ ) {
4884 if( ter( point( i, j ) ) != t_rock_floor ) {
4885 okay = false;
4886 }
4887 }
4888 }
4889 if( !okay ) {
4890 tries++;
4891 }
4892 } while( !okay && tries < 10 );
4893 if( tries == 10 ) { // Clear the area around the slope down
4894 square( this, t_rock_floor, p, p + point( 5, 5 ) );
4895 }
4896 // NOLINTNEXTLINE(cata-use-named-point-constants)
4897 square( this, t_slope_down, p + point( 1, 1 ), p + point( 2, 2 ) );
4898 } else { // We can build against a wall
4899 switch( random_entry( open ) ) {
4900 case direction::NORTH:
4901 square( this, t_rock_floor, point( SEEX - 3, 6 ), point( SEEX + 2, SEEY ) );
4902 line( this, t_slope_down, point( SEEX - 2, 6 ), point( SEEX + 1, 6 ) );
4903 break;
4904 case direction::EAST:
4905 square( this, t_rock_floor, point( SEEX + 1, SEEY - 3 ), point( SEEX * 2 - 7, SEEY + 2 ) );
4906 line( this, t_slope_down, point( SEEX * 2 - 7, SEEY - 2 ), point( SEEX * 2 - 7, SEEY + 1 ) );
4907 break;
4908 case direction::SOUTH:
4909 square( this, t_rock_floor, point( SEEX - 3, SEEY + 1 ), point( SEEX + 2, SEEY * 2 - 7 ) );
4910 line( this, t_slope_down, point( SEEX - 2, SEEY * 2 - 7 ), point( SEEX + 1, SEEY * 2 - 7 ) );
4911 break;
4912 case direction::WEST:
4913 square( this, t_rock_floor, point( 6, SEEY - 3 ), point( SEEX, SEEY + 2 ) );
4914 line( this, t_slope_down, point( 6, SEEY - 2 ), point( 6, SEEY + 1 ) );
4915 break;
4916 default:
4917 break;
4918 }
4919 }
4920 } // Done building a slope down
4921
4922 if( dat.above() == "mine_down" ) { // Don't forget to build a slope up!
4923 std::vector<direction> open;
4924 if( dat.n_fac == 6 && ter( point( SEEX, 6 ) ) != t_slope_down ) {
4925 open.push_back( direction::NORTH );
4926 }
4927 if( dat.e_fac == 6 && ter( point( SEEX * 2 - 7, SEEY ) ) != t_slope_down ) {
4928 open.push_back( direction::EAST );
4929 }
4930 if( dat.s_fac == 6 && ter( point( SEEX, SEEY * 2 - 7 ) ) != t_slope_down ) {
4931 open.push_back( direction::SOUTH );
4932 }
4933 if( dat.w_fac == 6 && ter( point( 6, SEEY ) ) != t_slope_down ) {
4934 open.push_back( direction::WEST );
4935 }
4936
4937 if( open.empty() ) { // We'll have to build it in the center
4938 int tries = 0;
4939 point p;
4940 bool okay = true;
4941 do {
4942 p.x = rng( SEEX - 6, SEEX + 1 );
4943 p.y = rng( SEEY - 6, SEEY + 1 );
4944 okay = true;
4945 for( int i = p.x; ( i <= p.x + 5 ) && okay; i++ ) {
4946 for( int j = p.y; ( j <= p.y + 5 ) && okay; j++ ) {
4947 if( ter( point( i, j ) ) != t_rock_floor ) {
4948 okay = false;
4949 }
4950 }
4951 }
4952 if( !okay ) {
4953 tries++;
4954 }
4955 } while( !okay && tries < 10 );
4956 if( tries == 10 ) { // Clear the area around the slope down
4957 square( this, t_rock_floor, p, p + point( 5, 5 ) );
4958 }
4959 // NOLINTNEXTLINE(cata-use-named-point-constants)
4960 square( this, t_slope_up, p + point( 1, 1 ), p + point( 2, 2 ) );
4961
4962 } else { // We can build against a wall
4963 switch( random_entry( open ) ) {
4964 case direction::NORTH:
4965 line( this, t_slope_up, point( SEEX - 2, 6 ), point( SEEX + 1, 6 ) );
4966 break;
4967 case direction::EAST:
4968 line( this, t_slope_up, point( SEEX * 2 - 7, SEEY - 2 ), point( SEEX * 2 - 7, SEEY + 1 ) );
4969 break;
4970 case direction::SOUTH:
4971 line( this, t_slope_up, point( SEEX - 2, SEEY * 2 - 7 ), point( SEEX + 1, SEEY * 2 - 7 ) );
4972 break;
4973 case direction::WEST:
4974 line( this, t_slope_up, point( 6, SEEY - 2 ), point( 6, SEEY + 1 ) );
4975 break;
4976 default:
4977 break;
4978 }
4979 }
4980 } // Done building a slope up
4981 } else if( terrain_type == "mine_finale" ) {
4982 // Set up the basic chamber
4983 for( int i = 0; i < SEEX * 2; i++ ) {
4984 for( int j = 0; j < SEEY * 2; j++ ) {
4985 if( i > rng( 1, 3 ) && i < SEEX * 2 - rng( 2, 4 ) &&
4986 j > rng( 1, 3 ) && j < SEEY * 2 - rng( 2, 4 ) ) {
4987 ter_set( point( i, j ), t_rock_floor );
4988 } else {
4989 ter_set( point( i, j ), t_rock );
4990 }
4991 }
4992 }
4993
4994 // Now draw the entrance(s)
4995 if( dat.north() == "mine" ) {
4996 square( this, t_rock_floor, point( SEEX, 0 ), point( SEEX + 1, 3 ) );
4997 }
4998
4999 if( dat.east() == "mine" ) {
5000 square( this, t_rock_floor, point( SEEX * 2 - 4, SEEY ), point( EAST_EDGE, SEEY + 1 ) );
5001 }
5002
5003 if( dat.south() == "mine" ) {
5004 square( this, t_rock_floor, point( SEEX, SEEY * 2 - 4 ), point( SEEX + 1, SOUTH_EDGE ) );
5005 }
5006
5007 if( dat.west() == "mine" ) {
5008 square( this, t_rock_floor, point( 0, SEEY ), point( 3, SEEY + 1 ) );
5009 }
5010
5011 // Now, pick and generate a type of finale!
5012 // The Thing dog
5013 const int num_bodies = rng( 4, 8 );
5014 for( int i = 0; i < num_bodies; i++ ) {
5015 point p3( rng( 4, SEEX * 2 - 5 ), rng( 4, SEEX * 2 - 5 ) );
5016 add_item( p3, item::make_corpse() );
5017 place_items( item_group_id( "mine_equipment" ), 60, p3,
5018 p3, false, calendar::start_of_cataclysm );
5019 }
5020 place_spawns( GROUP_DOG_THING, 1, point( SEEX, SEEX ), point( SEEX + 1, SEEX + 1 ), 1, true, true );
5021 spawn_artifact( tripoint( rng( SEEX, SEEX + 1 ), rng( SEEY, SEEY + 1 ), abs_sub.z ) );
5022 }
5023}
void spawn_artifact(const tripoint &p)
Definition: map.cpp:4165
static void open()
furn_id f_wreckage
Definition: mapdata.cpp:1097
ter_id t_rock
Definition: mapdata.cpp:673
ter_id t_lava
Definition: mapdata.cpp:695
void square(map *m, const ter_id &type, const point &p1, const point &p2)
Definition: mapgen.cpp:6471
static const mongroup_id GROUP_DOG_THING("GROUP_DOG_THING")

References mapgendata::above(), abs_sub, add_field(), add_item(), mapgendata::e_fac, EAST, mapgendata::east(), EAST_EDGE, f_wreckage, fd_gas_vent, GROUP_DOG_THING, is_ot_match(), line(), item::make_corpse(), make_rubble(), move_cost(), mapgendata::n_fac, NORTH, mapgendata::north(), num, one_in(), open(), place_items(), place_spawns(), prefix, random_entry(), random_point(), rng(), mapgendata::s_fac, SEEX, SEEY, SOUTH, mapgendata::south(), SOUTH_EDGE, spawn_artifact(), square(), calendar::start_of_cataclysm, t_lava, t_rock, t_rock_floor, t_slope_down, t_slope_up, ter(), ter_set(), mapgendata::terrain_type(), mapgendata::w_fac, WEST, mapgendata::west(), point::x, point::y, and tripoint::z.

Referenced by draw_map().

◆ draw_office_tower()

void map::draw_office_tower ( mapgendata dat)
protected

Definition at line 2927 of file mapgen.cpp.

2928{
2929 const oter_id &terrain_type = dat.terrain_type();
2930 const auto place_office_chairs = [&]() {
2931 int num_chairs = rng( 0, 6 );
2932 for( int i = 0; i < num_chairs; i++ ) {
2933 add_vehicle( vproto_id( "swivel_chair" ), point( rng( 6, 16 ), rng( 6, 16 ) ),
2934 0_degrees, -1, -1, false );
2935 }
2936 };
2937
2938 const auto ter_key = mapf::ter_bind( "E > < R # X G C , _ r V H 6 x % ^ . - | "
2939 "t + = D w T S e o h c d l s", t_elevator, t_stairs_down,
2947 const auto fur_key = mapf::furn_bind( "E > < R # X G C , _ r V H 6 x % ^ . - | "
2948 "t + = D w T S e o h c d l s", f_null, f_null, f_null,
2954 f_null );
2955 const auto b_ter_key = mapf::ter_bind( "E s > < R # X G C , . r V H 6 x % ^ _ - | "
2956 "t + = D w T S e o h c d l", t_elevator, t_rock,
2964 t_floor, t_floor );
2965 const auto b_fur_key = mapf::furn_bind( "E s > < R # X G C , . r V H 6 x % ^ _ - | "
2966 "t + = D w T S e o h c d l", f_null, f_null, f_null,
2973
2974 if( terrain_type == "office_tower_1_entrance" ) {
2975 dat.fill_groundcover();
2977 "ss%|....+...|...|EEED...\n"
2978 "ss%|----|...|...|EEx|...\n"
2979 "ss%Vcdc^|...|-+-|---|...\n"
2980 "ss%Vch..+...............\n"
2981 "ss%V....|...............\n"
2982 "ss%|----|-|-+--ccc--|...\n"
2983 "ss%|..C..C|.....h..r|-+-\n"
2984 "sss=......+..h.....r|...\n"
2985 "ss%|r..CC.|.ddd....r|T.S\n"
2986 "ss%|------|---------|---\n"
2987 "ss%|####################\n"
2988 "ss%|#|------||------|###\n"
2989 "ss%|#|......||......|###\n"
2990 "ss%|||......||......|###\n"
2991 "ss%||x......||......||##\n"
2992 "ss%|||......||......x|##\n"
2993 "ss%|#|......||......||##\n"
2994 "ss%|#|......||......|###\n"
2995 "ss%|#|XXXXXX||XXXXXX|###\n"
2996 "ss%|-|__,,__||__,,__|---\n"
2997 "ss%% x_,,,,_ __,,__ %%\n"
2998 "ss __,,__ _,,,,_ \n"
2999 "ssssss__,,__ss__,,__ssss\n"
3000 "ssssss______ss______ssss\n", ter_key, fur_key );
3001 place_items( item_group_id( "office" ), 75, point( 4, 2 ), point( 6, 2 ), false,
3003 place_items( item_group_id( "office" ), 75, point( 19, 6 ), point( 19, 6 ), false,
3005 place_items( item_group_id( "office" ), 75, point( 12, 8 ), point( 14, 8 ), false,
3007 if( dat.monster_density() > 1 ) {
3009 } else {
3010 place_spawns( GROUP_PLAIN, 2, point( 15, 1 ), point( 22, 7 ), 1, true );
3011 place_spawns( GROUP_PLAIN, 2, point( 15, 1 ), point( 22, 7 ), 0.15 );
3012 place_spawns( GROUP_ZOMBIE_COP, 2, point( 10, 10 ), point( 14, 10 ), 0.1 );
3013 }
3014 place_office_chairs();
3015
3016 if( dat.north() == "office_tower_1" && dat.west() == "office_tower_1" ) {
3017 rotate( 3 );
3018 } else if( dat.north() == "office_tower_1" && dat.east() == "office_tower_1" ) {
3019 rotate( 0 );
3020 } else if( dat.south() == "office_tower_1" && dat.east() == "office_tower_1" ) {
3021 rotate( 1 );
3022 } else if( dat.west() == "office_tower_1" && dat.south() == "office_tower_1" ) {
3023 rotate( 2 );
3024 }
3025 } else if( terrain_type == "office_tower_1" ) {
3026 // Init to grass & dirt;
3027 dat.fill_groundcover();
3028 if( ( dat.south() == "office_tower_1_entrance" && dat.east() == "office_tower_1" ) ||
3029 ( dat.north() == "office_tower_1" && dat.east() == "office_tower_1_entrance" ) ||
3030 ( dat.west() == "office_tower_1" && dat.north() == "office_tower_1_entrance" ) ||
3031 ( dat.south() == "office_tower_1" && dat.west() == "office_tower_1_entrance" ) ) {
3033 " ssssssssssssssssssssssss\n"
3034 "ssssssssssssssssssssssss\n"
3035 "ss \n"
3036 "ss%%%%%%%%%%%%%%%%%%%%%%\n"
3037 "ss%|-HH-|-HH-|-HH-|HH|--\n"
3038 "ss%Vdcxl|dxdl|lddx|..|.S\n"
3039 "ss%Vdh..|dh..|..hd|..+..\n"
3040 "ss%|-..-|-..-|-..-|..|--\n"
3041 "ss%V.................|.T\n"
3042 "ss%V.................|..\n"
3043 "ss%|-..-|-..-|-..-|..|--\n"
3044 "ss%V.h..|..hd|..hd|..|..\n"
3045 "ss%Vdxdl|^dxd|.xdd|..G..\n"
3046 "ss%|----|----|----|..G..\n"
3047 "ss%|llll|..htth......|..\n"
3048 "ss%V.................|..\n"
3049 "ss%V.ddd..........|+-|..\n"
3050 "ss%|..hd|.hh.ceocc|.l|..\n"
3051 "ss%|----|---------|--|..\n"
3052 "ss%Vcdcl|...............\n"
3053 "ss%V.h..+...............\n"
3054 "ss%V...^|...|---|---|...\n"
3055 "ss%|----|...|.R>|EEE|...\n"
3056 "ss%|rrrr|...|.R.|EEED...\n", ter_key, fur_key );
3057 if( dat.monster_density() > 1 ) {
3059 } else {
3060 place_spawns( GROUP_PLAIN, 1, point( 5, 7 ), point( 15, 20 ), 0.1 );
3061 }
3062 place_items( item_group_id( "office" ), 75, point( 4, 23 ), point( 7, 23 ), false,
3064 place_items( item_group_id( "office" ), 75, point( 4, 19 ), point( 7, 19 ), false,
3066 place_items( item_group_id( "office" ), 75, point( 4, 14 ), point( 7, 14 ), false,
3068 place_items( item_group_id( "office" ), 75, point( 5, 16 ), point( 7, 16 ), false,
3070 place_items( item_group_id( "fridge" ), 80, point( 14, 17 ), point( 14, 17 ), false,
3072 place_items( item_group_id( "cleaning" ), 75, point( 19, 17 ), point( 20, 17 ), false,
3074 place_items( item_group_id( "cubical_office" ), 75, point( 6, 12 ), point( 7, 12 ), false,
3076 place_items( item_group_id( "cubical_office" ), 75, point( 12, 11 ), point( 12, 12 ), false,
3078 place_items( item_group_id( "cubical_office" ), 75, point( 16, 11 ), point( 17, 12 ), false,
3080 place_items( item_group_id( "cubical_office" ), 75, point( 4, 5 ), point( 5, 5 ), false,
3082 place_items( item_group_id( "cubical_office" ), 75, point( 11, 5 ), point( 12, 5 ), false,
3084 place_items( item_group_id( "cubical_office" ), 75, point( 14, 5 ), point( 16, 5 ), false,
3086 place_office_chairs();
3087
3088 if( dat.west() == "office_tower_1_entrance" ) {
3089 rotate( 1 );
3090 }
3091 if( dat.north() == "office_tower_1_entrance" ) {
3092 rotate( 2 );
3093 }
3094 if( dat.east() == "office_tower_1_entrance" ) {
3095 rotate( 3 );
3096 }
3097 } else if( ( dat.west() == "office_tower_1_entrance" && dat.north() == "office_tower_1" ) ||
3098 ( dat.north() == "office_tower_1_entrance" && dat.east() == "office_tower_1" ) ||
3099 ( dat.west() == "office_tower_1" && dat.south() == "office_tower_1_entrance" ) ||
3100 ( dat.south() == "office_tower_1" && dat.east() == "office_tower_1_entrance" ) ) {
3102 "...DEEE|...|..|-----|%ss\n"
3103 "...|EEE|...|..|^...lV%ss\n"
3104 "...|---|-+-|......hdV%ss\n"
3105 "...........G..|..dddV%ss\n"
3106 "...........G..|-----|%ss\n"
3107 ".......|---|..|...ddV%ss\n"
3108 "|+-|...|...+......hdV%ss\n"
3109 "|.l|...|rr.|.^|l...dV%ss\n"
3110 "|--|...|---|--|-----|%ss\n"
3111 "|...........c.......V%ss\n"
3112 "|.......cxh.c.#####.Vsss\n"
3113 "|.......ccccc.......Gsss\n"
3114 "|...................Gsss\n"
3115 "|...................Vsss\n"
3116 "|#..................Gsss\n"
3117 "|#..................Gsss\n"
3118 "|#..................Vsss\n"
3119 "|#............#####.V%ss\n"
3120 "|...................|%ss\n"
3121 "--HHHHHGGHHGGHHHHH--|%ss\n"
3122 "%%%%% ssssssss %%%%%%%ss\n"
3123 " ssssssss ss\n"
3124 "ssssssssssssssssssssssss\n"
3125 "ssssssssssssssssssssssss\n", ter_key, fur_key );
3126 place_items( item_group_id( "office" ), 75, point( 19, 1 ), point( 19, 3 ), false,
3128 place_items( item_group_id( "office" ), 75, point( 17, 3 ), point( 18, 3 ), false,
3130 place_items( item_group_id( "office" ), 90, point( 8, 7 ), point( 9, 7 ), false,
3132 place_items( item_group_id( "cubical_office" ), 75, point( 19, 5 ), point( 19, 7 ), false,
3134 place_items( item_group_id( "cleaning" ), 80, point( 1, 7 ), point( 2, 7 ), false,
3136 if( dat.monster_density() > 1 ) {
3137 place_spawns( GROUP_ZOMBIE, 2, point_zero, point( 14, 10 ), dat.monster_density() );
3138 } else {
3139 place_spawns( GROUP_PLAIN, 1, point( 10, 10 ), point( 14, 10 ), 0.15 );
3140 place_spawns( GROUP_ZOMBIE_COP, 2, point( 10, 10 ), point( 14, 10 ), 0.1 );
3141 }
3142 place_office_chairs();
3143
3144 if( dat.north() == "office_tower_1_entrance" ) {
3145 rotate( 1 );
3146 }
3147 if( dat.east() == "office_tower_1_entrance" ) {
3148 rotate( 2 );
3149 }
3150 if( dat.south() == "office_tower_1_entrance" ) {
3151 rotate( 3 );
3152 }
3153 } else {
3155 "ssssssssssssssssssssssss\n"
3156 "ssssssssssssssssssssssss\n"
3157 " ss\n"
3158 "%%%%%%%%%%%%%%%%%%%%%%ss\n"
3159 "--|---|--HHHH-HHHH--|%ss\n"
3160 ".T|..l|............^|%ss\n"
3161 "..|-+-|...hhhhhhh...V%ss\n"
3162 "--|...G...ttttttt...V%ss\n"
3163 ".S|...G...ttttttt...V%ss\n"
3164 "..+...|...hhhhhhh...V%ss\n"
3165 "--|...|.............|%ss\n"
3166 "..|...|-------------|%ss\n"
3167 "..G....|l.......dxd^|%ss\n"
3168 "..G....G...h....dh..V%ss\n"
3169 "..|....|............V%ss\n"
3170 "..|....|------|llccc|%ss\n"
3171 "..|...........|-----|%ss\n"
3172 "..|...........|...ddV%ss\n"
3173 "..|----|---|......hdV%ss\n"
3174 ".......+...|..|l...dV%ss\n"
3175 ".......|rrr|..|-----|%ss\n"
3176 "...|---|---|..|l.dddV%ss\n"
3177 "...|xEE|.R>|......hdV%ss\n"
3178 "...DEEE|.R.|..|.....V%ss\n", ter_key, fur_key );
3179 spawn_item( point( 18, 15 ), "record_accounting" );
3180 place_items( item_group_id( "cleaning" ), 75, point( 3, 5 ), point( 5, 5 ), false,
3182 place_items( item_group_id( "office" ), 75, point( 10, 7 ), point( 16, 8 ), false,
3184 place_items( item_group_id( "cubical_office" ), 75, point( 15, 15 ), point( 19, 15 ), false,
3186 place_items( item_group_id( "cubical_office" ), 75, point( 16, 12 ), point( 16, 13 ), false,
3188 place_items( item_group_id( "cubical_office" ), 75, point( 17, 19 ), point( 19, 19 ), false,
3190 place_items( item_group_id( "office" ), 75, point( 17, 21 ), point( 19, 21 ), false,
3192 place_items( item_group_id( "office" ), 75, point( 16, 11 ), point( 17, 12 ), false,
3194 place_items( item_group_id( "cleaning" ), 75, point( 8, 20 ), point( 10, 20 ), false,
3196 if( dat.monster_density() > 1 ) {
3198 } else {
3199 place_spawns( GROUP_PLAIN, 1, point_zero, point( 9, 15 ), 0.1 );
3200 }
3201 place_office_chairs();
3202
3203 if( dat.west() == "office_tower_1" && dat.north() == "office_tower_1" ) {
3204 rotate( 1 );
3205 } else if( dat.east() == "office_tower_1" && dat.north() == "office_tower_1" ) {
3206 rotate( 2 );
3207 } else if( dat.east() == "office_tower_1" && dat.south() == "office_tower_1" ) {
3208 rotate( 3 );
3209 }
3210 }
3211 } else if( terrain_type == "office_tower_b_entrance" ) {
3212 dat.fill_groundcover();
3214 "sss|........|...|EEED___\n"
3215 "sss|........|...|EEx|___\n"
3216 "sss|........|-+-|---|HHG\n"
3217 "sss|....................\n"
3218 "sss|....................\n"
3219 "sss|....................\n"
3220 "sss|....................\n"
3221 "sss|....,,......,,......\n"
3222 "sss|...,,,,.....,,......\n"
3223 "sss|....,,.....,,,,..xS.\n"
3224 "sss|....,,......,,...SS.\n"
3225 "sss|-|XXXXXX||XXXXXX|---\n"
3226 "sss|s|EEEEEE||EEEEEE|sss\n"
3227 "sss|||EEEEEE||EEEEEE|sss\n"
3228 "sss||xEEEEEE||EEEEEE||ss\n"
3229 "sss|||EEEEEE||EEEEEEx|ss\n"
3230 "sss|s|EEEEEE||EEEEEE||ss\n"
3231 "sss|s|EEEEEE||EEEEEE|sss\n"
3232 "sss|s|------||------|sss\n"
3233 "sss|--------------------\n"
3234 "ssssssssssssssssssssssss\n"
3235 "ssssssssssssssssssssssss\n"
3236 "ssssssssssssssssssssssss\n"
3237 "ssssssssssssssssssssssss\n", ter_key, fur_key );
3238 if( dat.monster_density() > 1 ) {
3240 } else {
3242 }
3243 if( dat.north() == "office_tower_b" && dat.west() == "office_tower_b" ) {
3244 rotate( 3 );
3245 } else if( dat.north() == "office_tower_b" && dat.east() == "office_tower_b" ) {
3246 rotate( 0 );
3247 } else if( dat.south() == "office_tower_b" && dat.east() == "office_tower_b" ) {
3248 rotate( 1 );
3249 } else if( dat.west() == "office_tower_b" && dat.south() == "office_tower_b" ) {
3250 rotate( 2 );
3251 }
3252 } else if( terrain_type == "office_tower_b" ) {
3253 // Init to grass & dirt;
3254 dat.fill_groundcover();
3255 if( ( dat.south() == "office_tower_b_entrance" && dat.east() == "office_tower_b" ) ||
3256 ( dat.north() == "office_tower_b" && dat.east() == "office_tower_b_entrance" ) ||
3257 ( dat.west() == "office_tower_b" && dat.north() == "office_tower_b_entrance" ) ||
3258 ( dat.south() == "office_tower_b" && dat.west() == "office_tower_b_entrance" ) ) {
3260 "ssssssssssssssssssssssss\n"
3261 "ssssssssssssssssssssssss\n"
3262 "sss|--------------------\n"
3263 "sss|,.....,.....,.....,S\n"
3264 "sss|,.....,.....,.....,S\n"
3265 "sss|,.....,.....,.....,S\n"
3266 "sss|,.....,.....,.....,S\n"
3267 "sss|,.....,.....,.....,S\n"
3268 "sss|,.....,.....,.....,S\n"
3269 "sss|....................\n"
3270 "sss|....................\n"
3271 "sss|....................\n"
3272 "sss|....................\n"
3273 "sss|....................\n"
3274 "sss|....................\n"
3275 "sss|...,,...,....,....,S\n"
3276 "sss|..,,,,..,....,....,S\n"
3277 "sss|...,,...,....,....,S\n"
3278 "sss|...,,...,....,....,S\n"
3279 "sss|........,....,....,S\n"
3280 "sss|........,....,....,S\n"
3281 "sss|........|---|---|HHG\n"
3282 "sss|........|.R<|EEE|___\n"
3283 "sss|........|.R.|EEED___\n", b_ter_key, b_fur_key );
3284 if( dat.monster_density() > 1 ) {
3286 } else {
3288 }
3289 if( dat.west() == "office_tower_b_entrance" ) {
3290 rotate( 1 );
3291 if( x_in_y( 1, 5 ) ) {
3292 add_vehicle( vproto_id( "car" ), point( 17, 7 ), 180_degrees );
3293 }
3294 if( x_in_y( 1, 3 ) ) {
3295 add_vehicle( vproto_id( "motorcycle" ), point( 17, 13 ), 180_degrees );
3296 }
3297 if( x_in_y( 1, 5 ) ) {
3298 if( one_in( 3 ) ) {
3299 add_vehicle( vproto_id( "fire_truck" ), point( 6, 13 ), 0_degrees );
3300 } else {
3301 add_vehicle( vproto_id( "pickup" ), point( 17, 19 ), 180_degrees );
3302 }
3303 }
3304 } else if( dat.north() == "office_tower_b_entrance" ) {
3305 rotate( 2 );
3306 if( x_in_y( 1, 5 ) ) {
3307 add_vehicle( vproto_id( "car" ), point( 10, 17 ), 270_degrees );
3308 }
3309 if( x_in_y( 1, 3 ) ) {
3310 add_vehicle( vproto_id( "motorcycle" ), point( 4, 18 ), 270_degrees );
3311 }
3312 if( x_in_y( 1, 5 ) ) {
3313 if( one_in( 3 ) ) {
3314 add_vehicle( vproto_id( "fire_truck" ), point( 6, 13 ), 0_degrees );
3315 } else {
3316 add_vehicle( vproto_id( "pickup" ), point( 16, 17 ), 270_degrees );
3317 }
3318 }
3319 } else if( dat.east() == "office_tower_b_entrance" ) {
3320 rotate( 3 );
3321 if( x_in_y( 1, 5 ) ) {
3322 add_vehicle( vproto_id( "car" ), point( 6, 4 ), 0_degrees );
3323 }
3324 if( x_in_y( 1, 3 ) ) {
3325 add_vehicle( vproto_id( "motorcycle" ), point( 6, 10 ), 180_degrees );
3326 }
3327 if( x_in_y( 1, 5 ) ) {
3328 add_vehicle( vproto_id( "pickup" ), point( 6, 16 ), 0_degrees );
3329 }
3330
3331 } else {
3332 if( x_in_y( 1, 5 ) ) {
3333 add_vehicle( vproto_id( "pickup" ), point( 7, 6 ), 90_degrees );
3334 }
3335 if( x_in_y( 1, 5 ) ) {
3336 add_vehicle( vproto_id( "car" ), point( 14, 6 ), 90_degrees );
3337 }
3338 if( x_in_y( 1, 3 ) ) {
3339 add_vehicle( vproto_id( "motorcycle" ), point( 19, 6 ), 90_degrees );
3340 }
3341 }
3342 } else if( ( dat.west() == "office_tower_b_entrance" && dat.north() == "office_tower_b" ) ||
3343 ( dat.north() == "office_tower_b_entrance" && dat.east() == "office_tower_b" ) ||
3344 ( dat.west() == "office_tower_b" && dat.south() == "office_tower_b_entrance" ) ||
3345 ( dat.south() == "office_tower_b" && dat.east() == "office_tower_b_entrance" ) ) {
3347 "___DEEE|...|...,,...|sss\n"
3348 "___|EEE|...|..,,,,..|sss\n"
3349 "GHH|---|-+-|...,,...|sss\n"
3350 "....................|sss\n"
3351 "....................|sss\n"
3352 "....................|sss\n"
3353 "....................|sss\n"
3354 "....................|sss\n"
3355 "....................|sss\n"
3356 "....................|sss\n"
3357 "....................|sss\n"
3358 "|...................|sss\n"
3359 "|...................|sss\n"
3360 "|,.....,.....,.....,|sss\n"
3361 "|,.....,.....,.....,|sss\n"
3362 "|,.....,.....,.....,|sss\n"
3363 "|,.....,.....,.....,|sss\n"
3364 "|,.....,.....,.....,|sss\n"
3365 "|,.....,.....,.....,|sss\n"
3366 "|-------------------|sss\n"
3367 "ssssssssssssssssssssssss\n"
3368 "ssssssssssssssssssssssss\n"
3369 "ssssssssssssssssssssssss\n"
3370 "ssssssssssssssssssssssss\n", b_ter_key, b_fur_key );
3371 if( dat.monster_density() > 1 ) {
3373 } else {
3375 }
3376 if( dat.north() == "office_tower_b_entrance" ) {
3377 rotate( 1 );
3378 if( x_in_y( 1, 5 ) ) {
3379 add_vehicle( vproto_id( "car" ), point( 8, 15 ), 0_degrees );
3380 }
3381 if( x_in_y( 1, 5 ) ) {
3382 add_vehicle( vproto_id( "pickup" ), point( 7, 10 ), 180_degrees );
3383 }
3384 if( x_in_y( 1, 3 ) ) {
3385 add_vehicle( vproto_id( "beetle" ), point( 7, 3 ), 0_degrees );
3386 }
3387 } else if( dat.east() == "office_tower_b_entrance" ) {
3388 rotate( 2 );
3389 if( x_in_y( 1, 5 ) ) {
3390 if( one_in( 3 ) ) {
3391 add_vehicle( vproto_id( "fire_truck" ), point( 6, 13 ), 0_degrees );
3392 } else {
3393 add_vehicle( vproto_id( "pickup" ), point( 7, 7 ), 270_degrees );
3394 }
3395 }
3396 if( x_in_y( 1, 5 ) ) {
3397 add_vehicle( vproto_id( "car" ), point( 13, 8 ), 90_degrees );
3398 }
3399 if( x_in_y( 1, 3 ) ) {
3400 add_vehicle( vproto_id( "beetle" ), point( 20, 7 ), 90_degrees );
3401 }
3402 } else if( dat.south() == "office_tower_b_entrance" ) {
3403 rotate( 3 );
3404 if( x_in_y( 1, 5 ) ) {
3405 add_vehicle( vproto_id( "pickup" ), point( 16, 7 ), 0_degrees );
3406 }
3407 if( x_in_y( 1, 5 ) ) {
3408 add_vehicle( vproto_id( "car" ), point( 15, 13 ), 180_degrees );
3409 }
3410 if( x_in_y( 1, 3 ) ) {
3411 add_vehicle( vproto_id( "beetle" ), point( 15, 20 ), 180_degrees );
3412 }
3413 } else {
3414 if( x_in_y( 1, 5 ) ) {
3415 add_vehicle( vproto_id( "pickup" ), point( 16, 16 ), 90_degrees );
3416 }
3417 if( x_in_y( 1, 5 ) ) {
3418 add_vehicle( vproto_id( "car" ), point( 9, 15 ), 270_degrees );
3419 }
3420 if( x_in_y( 1, 3 ) ) {
3421 add_vehicle( vproto_id( "beetle" ), point( 4, 16 ), 270_degrees );
3422 }
3423 }
3424 } else {
3426 "ssssssssssssssssssssssss\n"
3427 "ssssssssssssssssssssssss\n"
3428 "--------------------|sss\n"
3429 "S,.....,.....,.....,|sss\n"
3430 "S,.....,.....,.....,|sss\n"
3431 "S,.....,.....,.....,|sss\n"
3432 "S,.....,.....,.....,|sss\n"
3433 "S,.....,.....,.....,|sss\n"
3434 "S,.....,.....,.....,|sss\n"
3435 "....................|sss\n"
3436 "....................|sss\n"
3437 "....................|sss\n"
3438 "....................|sss\n"
3439 "....................|sss\n"
3440 "....................|sss\n"
3441 "S,....,....,........|sss\n"
3442 "S,....,....,........|sss\n"
3443 "S,....,....,........|sss\n"
3444 "S,....,....,........|sss\n"
3445 "S,....,....,........|sss\n"
3446 "S,....,....,........|sss\n"
3447 "GHH|---|---|........|sss\n"
3448 "___|xEE|.R<|........|sss\n"
3449 "___DEEE|.R.|...,,...|sss\n", b_ter_key, b_fur_key );
3450 if( dat.monster_density() > 1 ) {
3452 } else {
3454 }
3455 if( dat.west() == "office_tower_b" && dat.north() == "office_tower_b" ) {
3456 rotate( 1 );
3457 if( x_in_y( 1, 5 ) ) {
3458 if( one_in( 3 ) ) {
3459 add_vehicle( vproto_id( "cube_van" ), point( 17, 4 ), 180_degrees );
3460 } else {
3461 add_vehicle( vproto_id( "cube_van_cheap" ), point( 17, 4 ), 180_degrees );
3462 }
3463 }
3464 if( x_in_y( 1, 5 ) ) {
3465 add_vehicle( vproto_id( "pickup" ), point( 17, 10 ), 180_degrees );
3466 }
3467 if( x_in_y( 1, 3 ) ) {
3468 add_vehicle( vproto_id( "car" ), point( 17, 17 ), 180_degrees );
3469 }
3470 } else if( dat.east() == "office_tower_b" && dat.north() == "office_tower_b" ) {
3471 rotate( 2 );
3472 if( x_in_y( 1, 5 ) ) {
3473 if( one_in( 3 ) ) {
3474 add_vehicle( vproto_id( "cube_van" ), point( 6, 17 ), 270_degrees );
3475 } else {
3476 add_vehicle( vproto_id( "cube_van_cheap" ), point( 6, 17 ), 270_degrees );
3477 }
3478 }
3479 if( x_in_y( 1, 5 ) ) {
3480 add_vehicle( vproto_id( "pickup" ), point( 12, 17 ), 270_degrees );
3481 }
3482 if( x_in_y( 1, 3 ) ) {
3483 add_vehicle( vproto_id( "fire_truck" ), point( 18, 17 ), 270_degrees );
3484 }
3485 } else if( dat.east() == "office_tower_b" && dat.south() == "office_tower_b" ) {
3486 rotate( 3 );
3487 if( x_in_y( 1, 5 ) ) {
3488 add_vehicle( vproto_id( "cube_van_cheap" ), point( 6, 6 ), 0_degrees );
3489 }
3490 if( x_in_y( 1, 5 ) ) {
3491 if( one_in( 3 ) ) {
3492 add_vehicle( vproto_id( "fire_truck" ), point( 6, 13 ), 0_degrees );
3493 } else {
3494 add_vehicle( vproto_id( "pickup" ), point( 6, 13 ), 0_degrees );
3495 }
3496 }
3497 if( x_in_y( 1, 3 ) ) {
3498 add_vehicle( vproto_id( "car" ), point( 5, 19 ), 180_degrees );
3499 }
3500 } else {
3501 if( x_in_y( 1, 5 ) ) {
3502 add_vehicle( vproto_id( "flatbed_truck" ), point( 16, 6 ), 90_degrees );
3503 }
3504 if( x_in_y( 1, 5 ) ) {
3505 add_vehicle( vproto_id( "cube_van_cheap" ), point( 10, 6 ), 90_degrees );
3506 }
3507 if( x_in_y( 1, 3 ) ) {
3508 add_vehicle( vproto_id( "car" ), point( 4, 6 ), 90_degrees );
3509 }
3510 }
3511 }
3512 }
3513}
bool x_in_y(const time_duration &a, const time_duration &b)
Definition: calendar.cpp:521
void fill_groundcover()
Definition: mapgendata.cpp:125
float monster_density() const
Definition: mapgendata.h:90
furn_id f_chair
Definition: mapdata.cpp:1103
ter_id t_door_locked_alarm
Definition: mapdata.cpp:657
furn_id f_fridge
Definition: mapdata.cpp:1106
ter_id t_wall
Definition: mapdata.cpp:646
furn_id f_bookcase
Definition: mapdata.cpp:1107
ter_id t_pavement
Definition: mapdata.cpp:630
furn_id f_desk
Definition: mapdata.cpp:1103
ter_id t_railing
Definition: mapdata.cpp:688
furn_id f_indoor_plant
Definition: mapdata.cpp:1100
ter_id t_pavement_y
Definition: mapdata.cpp:630
ter_id t_wall_glass
Definition: mapdata.cpp:648
furn_id f_crate_c
Definition: mapdata.cpp:1110
furn_id f_toilet
Definition: mapdata.cpp:1101
ter_id t_window
Definition: mapdata.cpp:666
furn_id f_bench
Definition: mapdata.cpp:1104
ter_id t_door_glass_c
Definition: mapdata.cpp:664
ter_id t_console_broken
Definition: mapdata.cpp:704
ter_id t_door_locked
Definition: mapdata.cpp:657
furn_id f_locker
Definition: mapdata.cpp:1106
ter_id t_elevator
Definition: mapdata.cpp:723
furn_id f_sink
Definition: mapdata.cpp:1102
ter_id t_door_c
Definition: mapdata.cpp:656
static const mongroup_id GROUP_ZOMBIE_COP("GROUP_ZOMBIE_COP")
static const mongroup_id GROUP_PLAIN("GROUP_PLAIN")
static const mongroup_id GROUP_ZOMBIE("GROUP_ZOMBIE")
void formatted_set_simple(map *m, const point &start, const char *cstr, const format_effect< ter_id > &ter_b, const format_effect< furn_id > &furn_b)
Set terrain and furniture on the supplied map.
format_effect< furn_id > furn_bind(const char(&characters)[N], Args... ids)
Definition: mapgenformat.h:76
format_effect< ter_id > ter_bind(const char(&characters)[N], Args... ids)
The functions create a mapping of characters to ids, usable with formatted_set_simple.
Definition: mapgenformat.h:66
string_id< vehicle_prototype > vproto_id
Definition: type_id.h:193

References add_vehicle(), mapgendata::east(), EAST_EDGE, f_bench, f_bookcase, f_chair, f_counter, f_crate_c, f_desk, f_fridge, f_indoor_plant, f_locker, f_null, f_rack, f_sink, f_table, f_toilet, mapgendata::fill_groundcover(), mapf::formatted_set_simple(), mapf::furn_bind(), GROUP_PLAIN, GROUP_ZOMBIE, GROUP_ZOMBIE_COP, mapgendata::monster_density(), mapgendata::north(), one_in(), place_items(), place_spawns(), point_zero, rng(), rotate(), mapgendata::south(), SOUTH_EDGE, spawn_item(), calendar::start_of_cataclysm, t_console, t_console_broken, t_door_c, t_door_glass_c, t_door_locked, t_door_locked_alarm, t_door_metal_locked, t_elevator, t_floor, t_pavement, t_pavement_y, t_railing, t_rock, t_shrub, t_sidewalk, t_stairs_down, t_stairs_up, t_wall, t_wall_glass, t_window, mapf::ter_bind(), mapgendata::terrain_type(), mapgendata::west(), and x_in_y().

Referenced by draw_map().

◆ draw_rough_circle_furn()

void map::draw_rough_circle_furn ( const furn_id type,
const point p,
int  rad 
)

Definition at line 8406 of file map.cpp.

8407{
8408 draw_rough_circle( [this, type]( const point & q ) {
8409 this->furn_set( q, type );
8410 }, p, rad );
8411}

References draw_rough_circle(), furn_set(), and type.

Referenced by rough_circle_furn().

◆ draw_rough_circle_ter()

void map::draw_rough_circle_ter ( const ter_id type,
const point p,
int  rad 
)

Definition at line 8399 of file map.cpp.

8400{
8401 draw_rough_circle( [this, type]( const point & q ) {
8402 this->ter_set( q, type );
8403 }, p, rad );
8404}

References draw_rough_circle(), ter_set(), and type.

Referenced by rough_circle().

◆ draw_slimepit()

void map::draw_slimepit ( mapgendata dat)
protected

Definition at line 5043 of file mapgen.cpp.

5044{
5045 const oter_id &terrain_type = dat.terrain_type();
5046 if( is_ot_match( "slimepit", terrain_type, ot_match_type::prefix ) ) {
5047 for( int i = 0; i < SEEX * 2; i++ ) {
5048 for( int j = 0; j < SEEY * 2; j++ ) {
5049 if( !one_in( 10 ) && ( j < dat.n_fac * SEEX ||
5050 i < dat.w_fac * SEEX ||
5051 j > SEEY * 2 - dat.s_fac * SEEY ||
5052 i > SEEX * 2 - dat.e_fac * SEEX ) ) {
5053 ter_set( point( i, j ), ( !one_in( 10 ) ? t_slime : t_rock_floor ) );
5054 } else if( rng( 0, SEEX ) > std::abs( i - SEEX ) && rng( 0, SEEY ) > std::abs( j - SEEY ) ) {
5055 ter_set( point( i, j ), t_slime );
5056 } else if( dat.zlevel() == 0 ) {
5057 ter_set( point( i, j ), t_dirt );
5058 } else {
5059 ter_set( point( i, j ), t_rock_floor );
5060 }
5061 }
5062 }
5063 if( terrain_type == "slimepit_down" ) {
5064 ter_set( point( rng( 3, SEEX * 2 - 4 ), rng( 3, SEEY * 2 - 4 ) ), t_slope_down );
5065 }
5066 if( dat.above() == "slimepit_down" ) {
5067 switch( rng( 1, 4 ) ) {
5068 case 1:
5069 ter_set( point( rng( 0, 2 ), rng( 0, 2 ) ), t_slope_up );
5070 break;
5071 case 2:
5072 ter_set( point( rng( 0, 2 ), SEEY * 2 - rng( 1, 3 ) ), t_slope_up );
5073 break;
5074 case 3:
5075 ter_set( point( SEEX * 2 - rng( 1, 3 ), rng( 0, 2 ) ), t_slope_up );
5076 break;
5077 case 4:
5078 ter_set( point( SEEX * 2 - rng( 1, 3 ), SEEY * 2 - rng( 1, 3 ) ), t_slope_up );
5079 }
5080 }
5081 place_spawns( GROUP_BLOB, 1, point( SEEX, SEEY ), point( SEEX, SEEY ), 0.15 );
5082 place_items( item_group_id( "sewer" ), 40, point_zero, point( EAST_EDGE, SOUTH_EDGE ), true,
5084 }
5085}
static const mongroup_id GROUP_BLOB("GROUP_BLOB")

References mapgendata::above(), mapgendata::e_fac, EAST_EDGE, GROUP_BLOB, is_ot_match(), mapgendata::n_fac, one_in(), place_items(), place_spawns(), point_zero, prefix, rng(), mapgendata::s_fac, SEEX, SEEY, SOUTH_EDGE, calendar::start_of_cataclysm, t_dirt, t_rock_floor, t_slime, t_slope_down, t_slope_up, ter_set(), mapgendata::terrain_type(), mapgendata::w_fac, and mapgendata::zlevel().

Referenced by draw_map().

◆ draw_square_furn()

void map::draw_square_furn ( const furn_id type,
const point p1,
const point p2 
)

Definition at line 8376 of file map.cpp.

8377{
8378 draw_square( [this, type]( const point & p ) {
8379 this->furn_set( p, type );
8380 }, p1, p2 );
8381}
void draw_square(std::function< void(const point &)>set, point p1, point p2)

References draw_square(), furn_set(), and type.

Referenced by jmapgen_setmap::apply(), mission_start::ranch_nurse_1(), mission_start::ranch_nurse_2(), mission_start::ranch_nurse_7(), mission_start::ranch_nurse_8(), and square_furn().

◆ draw_square_ter() [1/3]

◆ draw_square_ter() [2/3]

void map::draw_square_ter ( const weighted_int_list< ter_id > &  f,
const point p1,
const point p2 
)

Definition at line 8390 of file map.cpp.

8392{
8393 draw_square( [this, f]( const point & p ) {
8394 const ter_id *tid = f.pick();
8395 this->ter_set( p, tid != nullptr ? *tid : t_null );
8396 }, p1, p2 );
8397}
ter_id t_null
Definition: mapdata.cpp:623
const T * pick(unsigned int randi) const
This will return a pointer to an object from the list randomly selected and biased by weight.
Definition: weighted_list.h:94

References draw_square(), weighted_list< W, T >::pick(), t_null, and ter_set().

◆ draw_square_ter() [3/3]

void map::draw_square_ter ( ter_id(*)()  f,
const point p1,
const point p2 
)

Definition at line 8383 of file map.cpp.

8384{
8385 draw_square( [this, f]( const point & p ) {
8386 this->ter_set( p, f() );
8387 }, p1, p2 );
8388}

References draw_square(), and ter_set().

◆ draw_temple()

void map::draw_temple ( mapgendata dat)
protected

Definition at line 4516 of file mapgen.cpp.

4517{
4518 const oter_id &terrain_type = dat.terrain_type();
4519 if( terrain_type == "temple" || terrain_type == "temple_stairs" ) {
4520 if( dat.zlevel() == 0 ) {
4521 // Ground floor
4522 // TODO: More varieties?
4523 fill_background( this, t_dirt );
4524 square( this, t_grate, point( SEEX - 1, SEEY - 1 ), point( SEEX, SEEX ) );
4525 ter_set( point( SEEX + 1, SEEY + 1 ), t_pedestal_temple );
4526 } else {
4527 // Underground! Shit's about to get interesting!
4528 // Start with all rock floor
4530 // We always start at the south and go north.
4531 // We use (y / 2 + z) % 4 to guarantee that rooms don't repeat.
4532 switch( 1 + std::abs( abs_sub.y / 2 + dat.zlevel() + 4 ) % 4 ) { // TODO: More varieties!
4533
4534 case 1:
4535 // Flame bursts
4536 square( this, t_rock, point_zero, point( SEEX - 1, SOUTH_EDGE ) );
4537 square( this, t_rock, point( SEEX + 2, 0 ), point( EAST_EDGE, SOUTH_EDGE ) );
4538 for( int i = 2; i < SEEY * 2 - 4; i++ ) {
4539 add_field( {SEEX, i, abs_sub.z}, fd_fire_vent, rng( 1, 3 ) );
4540 add_field( {SEEX + 1, i, abs_sub.z}, fd_fire_vent, rng( 1, 3 ) );
4541 }
4542 break;
4543
4544 case 2:
4545 // Spreading water
4546 square( this, t_water_dp, point( 4, 4 ), point( 5, 5 ) );
4547 // replaced mon_sewer_snake spawn with GROUP_SEWER
4548 // Decide whether a group of only sewer snakes be made, probably not worth it
4549 place_spawns( GROUP_SEWER, 1, point( 4, 4 ), point( 4, 4 ), 1, true );
4550
4551 square( this, t_water_dp, point( SEEX * 2 - 5, 4 ), point( SEEX * 2 - 4, 6 ) );
4552 place_spawns( GROUP_SEWER, 1, point( 1, SEEX * 2 - 5 ), point( 1, SEEX * 2 - 5 ), 1, true );
4553
4554 square( this, t_water_dp, point( 4, SEEY * 2 - 5 ), point( 6, SEEY * 2 - 4 ) );
4555
4556 square( this, t_water_dp, point( SEEX * 2 - 5, SEEY * 2 - 5 ), point( SEEX * 2 - 4,
4557 SEEY * 2 - 4 ) );
4558
4559 square( this, t_rock, point( 0, SEEY * 2 - 2 ), point( SEEX - 1, SOUTH_EDGE ) );
4560 square( this, t_rock, point( SEEX + 2, SEEY * 2 - 2 ), point( EAST_EDGE, SOUTH_EDGE ) );
4561 line( this, t_grate, point( SEEX, 1 ), point( SEEX + 1, 1 ) ); // To drain the water
4562 mtrap_set( this, point( SEEX, SEEY * 2 - 2 ), tr_temple_flood );
4563 mtrap_set( this, point( SEEX + 1, SEEY * 2 - 2 ), tr_temple_flood );
4564 for( int y = 2; y < SEEY * 2 - 2; y++ ) {
4565 for( int x = 2; x < SEEX * 2 - 2; x++ ) {
4566 if( ter( point( x, y ) ) == t_rock_floor && one_in( 4 ) ) {
4567 mtrap_set( this, point( x, y ), tr_temple_flood );
4568 }
4569 }
4570 }
4571 break;
4572
4573 case 3: { // Flipping walls puzzle
4574 line( this, t_rock, point_zero, point( SEEX - 1, 0 ) );
4575 line( this, t_rock, point( SEEX + 2, 0 ), point( EAST_EDGE, 0 ) );
4576 line( this, t_rock, point( SEEX - 1, 1 ), point( SEEX - 1, 6 ) );
4577 line( this, t_bars, point( SEEX + 2, 1 ), point( SEEX + 2, 6 ) );
4578 ter_set( point( 14, 1 ), t_switch_rg );
4579 ter_set( point( 15, 1 ), t_switch_gb );
4580 ter_set( point( 16, 1 ), t_switch_rb );
4581 ter_set( point( 17, 1 ), t_switch_even );
4582 // Start with clear floors--then work backwards to the starting state
4583 line( this, t_floor_red, point( SEEX, 1 ), point( SEEX + 1, 1 ) );
4584 line( this, t_floor_green, point( SEEX, 2 ), point( SEEX + 1, 2 ) );
4585 line( this, t_floor_blue, point( SEEX, 3 ), point( SEEX + 1, 3 ) );
4586 line( this, t_floor_red, point( SEEX, 4 ), point( SEEX + 1, 4 ) );
4587 line( this, t_floor_green, point( SEEX, 5 ), point( SEEX + 1, 5 ) );
4588 line( this, t_floor_blue, point( SEEX, 6 ), point( SEEX + 1, 6 ) );
4589 // Now, randomly choose actions
4590 // Set up an actions vector so that there's not undue repetition
4591 std::vector<int> actions;
4592 actions.push_back( 1 );
4593 actions.push_back( 2 );
4594 actions.push_back( 3 );
4595 actions.push_back( 4 );
4596 actions.push_back( rng( 1, 3 ) );
4597 while( !actions.empty() ) {
4598 const int action = random_entry_removed( actions );
4599 for( int y = 1; y < 7; y++ ) {
4600 for( int x = SEEX; x <= SEEX + 1; x++ ) {
4601 switch( action ) {
4602 case 1:
4603 // Toggle RG
4604 if( ter( point( x, y ) ) == t_floor_red ) {
4605 ter_set( point( x, y ), t_rock_red );
4606 } else if( ter( point( x, y ) ) == t_rock_red ) {
4607 ter_set( point( x, y ), t_floor_red );
4608 } else if( ter( point( x, y ) ) == t_floor_green ) {
4609 ter_set( point( x, y ), t_rock_green );
4610 } else if( ter( point( x, y ) ) == t_rock_green ) {
4611 ter_set( point( x, y ), t_floor_green );
4612 }
4613 break;
4614 case 2:
4615 // Toggle GB
4616 if( ter( point( x, y ) ) == t_floor_blue ) {
4617 ter_set( point( x, y ), t_rock_blue );
4618 } else if( ter( point( x, y ) ) == t_rock_blue ) {
4619 ter_set( point( x, y ), t_floor_blue );
4620 } else if( ter( point( x, y ) ) == t_floor_green ) {
4621 ter_set( point( x, y ), t_rock_green );
4622 } else if( ter( point( x, y ) ) == t_rock_green ) {
4623 ter_set( point( x, y ), t_floor_green );
4624 }
4625 break;
4626 case 3:
4627 // Toggle RB
4628 if( ter( point( x, y ) ) == t_floor_blue ) {
4629 ter_set( point( x, y ), t_rock_blue );
4630 } else if( ter( point( x, y ) ) == t_rock_blue ) {
4631 ter_set( point( x, y ), t_floor_blue );
4632 } else if( ter( point( x, y ) ) == t_floor_red ) {
4633 ter_set( point( x, y ), t_rock_red );
4634 } else if( ter( point( x, y ) ) == t_rock_red ) {
4635 ter_set( point( x, y ), t_floor_red );
4636 }
4637 break;
4638 case 4:
4639 // Toggle Even
4640 if( y % 2 == 0 ) {
4641 if( ter( point( x, y ) ) == t_floor_blue ) {
4642 ter_set( point( x, y ), t_rock_blue );
4643 } else if( ter( point( x, y ) ) == t_rock_blue ) {
4644 ter_set( point( x, y ), t_floor_blue );
4645 } else if( ter( point( x, y ) ) == t_floor_red ) {
4646 ter_set( point( x, y ), t_rock_red );
4647 } else if( ter( point( x, y ) ) == t_rock_red ) {
4648 ter_set( point( x, y ), t_floor_red );
4649 } else if( ter( point( x, y ) ) == t_floor_green ) {
4650 ter_set( point( x, y ), t_rock_green );
4651 } else if( ter( point( x, y ) ) == t_rock_green ) {
4652 ter_set( point( x, y ), t_floor_green );
4653 }
4654 }
4655 break;
4656 }
4657 }
4658 }
4659 }
4660 }
4661 break;
4662
4663 case 4: { // Toggling walls maze
4664 square( this, t_rock, point_zero, point( SEEX - 1, 1 ) );
4665 square( this, t_rock, point( 0, SEEY * 2 - 2 ), point( SEEX - 1, SOUTH_EDGE ) );
4666 square( this, t_rock, point( 0, 2 ), point( SEEX - 4, SEEY * 2 - 3 ) );
4667 square( this, t_rock, point( SEEX + 2, 0 ), point( EAST_EDGE, 1 ) );
4668 square( this, t_rock, point( SEEX + 2, SEEY * 2 - 2 ), point( EAST_EDGE, SOUTH_EDGE ) );
4669 square( this, t_rock, point( SEEX + 5, 2 ), point( EAST_EDGE, SEEY * 2 - 3 ) );
4670 int x = rng( SEEX - 1, SEEX + 2 ), y = 2;
4671 std::vector<point> path; // Path, from end to start
4672 while( x < SEEX - 1 || x > SEEX + 2 || y < SEEY * 2 - 2 ) {
4673 static const std::vector<ter_id> terrains = {
4675 };
4676 path.push_back( point( x, y ) );
4677 ter_set( point( x, y ), random_entry( terrains ) );
4678 if( y == SEEY * 2 - 2 ) {
4679 if( x < SEEX - 1 ) {
4680 x++;
4681 } else if( x > SEEX + 2 ) {
4682 x--;
4683 }
4684 } else {
4685 std::vector<point> next;
4686 for( int nx = x - 1; nx <= x + 1; nx++ ) {
4687 for( int ny = y; ny <= y + 1; ny++ ) {
4688 if( ter( point( nx, ny ) ) == t_rock_floor ) {
4689 next.push_back( point( nx, ny ) );
4690 }
4691 }
4692 }
4693 if( next.empty() ) {
4694 break;
4695 } else {
4696 const point p = random_entry( next );
4697 x = p.x;
4698 y = p.y;
4699 }
4700 }
4701 }
4702 // Now go backwards through path (start to finish), toggling any tiles that need
4703 bool toggle_red = false;
4704 bool toggle_green = false;
4705 bool toggle_blue = false;
4706 for( int i = path.size() - 1; i >= 0; i-- ) {
4707 if( ter( path[i] ) == t_floor_red ) {
4708 toggle_green = !toggle_green;
4709 if( toggle_red ) {
4710 ter_set( path[i], t_rock_red );
4711 }
4712 } else if( ter( path[i] ) == t_floor_green ) {
4713 toggle_blue = !toggle_blue;
4714 if( toggle_green ) {
4715 ter_set( path[i], t_rock_green );
4716 }
4717 } else if( ter( path[i] ) == t_floor_blue ) {
4718 toggle_red = !toggle_red;
4719 if( toggle_blue ) {
4720 ter_set( path[i], t_rock_blue );
4721 }
4722 }
4723 }
4724 // Finally, fill in the rest with random tiles, and place toggle traps
4725 for( int i = SEEX - 3; i <= SEEX + 4; i++ ) {
4726 for( int j = 2; j <= SEEY * 2 - 2; j++ ) {
4727 mtrap_set( this, point( i, j ), tr_temple_toggle );
4728 if( ter( point( i, j ) ) == t_rock_floor ) {
4729 static const std::vector<ter_id> terrains = {
4732 };
4733 ter_set( point( i, j ), random_entry( terrains ) );
4734 }
4735 }
4736 }
4737 }
4738 break;
4739 } // Done with room type switch
4740 // Stairs down if we need them
4741 if( terrain_type == "temple_stairs" ) {
4742 line( this, t_stairs_down, point( SEEX, 0 ), point( SEEX + 1, 0 ) );
4743 }
4744 // Stairs at the south if dat.above() has stairs down.
4745 if( dat.above() == "temple_stairs" ) {
4746 line( this, t_stairs_up, point( SEEX, SOUTH_EDGE ), point( SEEX + 1, SOUTH_EDGE ) );
4747 }
4748
4749 } // Done with underground-only stuff
4750 } else if( terrain_type == "temple_finale" ) {
4751 fill_background( this, t_rock );
4752 square( this, t_rock_floor, point( SEEX - 1, 1 ), point( SEEX + 2, 4 ) );
4753 square( this, t_rock_floor, point( SEEX, 5 ), point( SEEX + 1, SOUTH_EDGE ) );
4754 line( this, t_stairs_up, point( SEEX, SOUTH_EDGE ), point( SEEX + 1, SOUTH_EDGE ) );
4755 spawn_artifact( tripoint( rng( SEEX, SEEX + 1 ), rng( 2, 3 ), abs_sub.z ) );
4756 spawn_artifact( tripoint( rng( SEEX, SEEX + 1 ), rng( 2, 3 ), abs_sub.z ) );
4757 return;
4758
4759 }
4760}
@ action
Definition: dialogue.h:36
ter_id t_switch_even
Definition: mapdata.cpp:727
ter_id t_rock_red
Definition: mapdata.cpp:726
ter_id t_pedestal_temple
Definition: mapdata.cpp:724
ter_id t_floor_blue
Definition: mapdata.cpp:726
ter_id t_grate
Definition: mapdata.cpp:636
ter_id t_switch_rb
Definition: mapdata.cpp:727
ter_id t_rock_green
Definition: mapdata.cpp:726
ter_id t_rock_blue
Definition: mapdata.cpp:726
ter_id t_floor_green
Definition: mapdata.cpp:726
ter_id t_switch_gb
Definition: mapdata.cpp:727
ter_id t_floor_red
Definition: mapdata.cpp:726
ter_id t_switch_rg
Definition: mapdata.cpp:727
static const mongroup_id GROUP_SEWER("GROUP_SEWER")
static const trap_str_id tr_temple_flood("tr_temple_flood")
generic_factory< oter_t > terrains("overmap terrain")
V random_entry_removed(C &container)
Returns a random entry in the container and removes it from the container.
Definition: rng.h:170
trap_id tr_temple_toggle
Definition: trap.cpp:311

References mapgendata::above(), abs_sub, action, add_field(), EAST_EDGE, fd_fire_vent, fill_background(), GROUP_SEWER, line(), mtrap_set(), one_in(), place_spawns(), point_zero, random_entry(), random_entry_removed(), rng(), SEEX, SEEY, SOUTH_EDGE, spawn_artifact(), square(), t_bars, t_dirt, t_floor_blue, t_floor_green, t_floor_red, t_grate, t_pedestal_temple, t_rock, t_rock_blue, t_rock_floor, t_rock_green, t_rock_red, t_stairs_down, t_stairs_up, t_switch_even, t_switch_gb, t_switch_rb, t_switch_rg, t_water_dp, ter(), ter_set(), mapgendata::terrain_type(), anonymous_namespace{overmap.cpp}::terrains, tr_temple_flood, tr_temple_toggle, point::x, point::y, tripoint::y, tripoint::z, and mapgendata::zlevel().

Referenced by draw_map().

◆ draw_triffid()

void map::draw_triffid ( mapgendata dat)
protected

Definition at line 5087 of file mapgen.cpp.

5088{
5089 const oter_id &terrain_type = dat.terrain_type();
5090 if( terrain_type == "triffid_roots" ) {
5092 int node = 0;
5093 int step = 0;
5094 bool node_built[16];
5095 bool done = false;
5096 for( auto &elem : node_built ) {
5097 elem = false;
5098 }
5099 do {
5100 node_built[node] = true;
5101 step++;
5102 point node2( 1 + 6 * ( node % 4 ), 1 + 6 * static_cast<int>( node / 4 ) );
5103 // Clear a 4x4 dirt square
5104 square( this, t_dirt, node2, node2 + point( 3, 3 ) );
5105 // Spawn a monster in there
5106 if( step > 2 ) { // First couple of chambers are safe
5107 int monrng = rng( 1, 25 );
5108 point spawn( node2 + point{ rng( 0, 3 ), rng( 0, 3 ) } );
5109 if( monrng <= 24 ) {
5111 node2 + point( 3, 3 ), 1, true );
5112 } else {
5113 for( int webx = node2.x; webx <= node2.x + 3; webx++ ) {
5114 for( int weby = node2.y; weby <= node2.y + 3; weby++ ) {
5115 add_field( {webx, weby, abs_sub.z}, fd_web, rng( 1, 3 ) );
5116 }
5117 }
5118 place_spawns( GROUP_SPIDER, 1, spawn, spawn, 1, true );
5119 }
5120 }
5121 // TODO: Non-monster hazards?
5122 // Next, pick a cell to move to
5123 std::vector<direction> move;
5124 if( node % 4 > 0 && !node_built[node - 1] ) {
5125 move.push_back( direction::WEST );
5126 }
5127 if( node % 4 < 3 && !node_built[node + 1] ) {
5128 move.push_back( direction::EAST );
5129 }
5130 if( static_cast<int>( node / 4 ) > 0 && !node_built[node - 4] ) {
5131 move.push_back( direction::NORTH );
5132 }
5133 if( static_cast<int>( node / 4 ) < 3 && !node_built[node + 4] ) {
5134 move.push_back( direction::SOUTH );
5135 }
5136
5137 if( move.empty() ) { // Nowhere to go!
5138 square( this, t_slope_down, node2 + point_south_east, node2 + point( 2, 2 ) );
5139 done = true;
5140 } else {
5141 switch( random_entry( move ) ) {
5142 case direction::NORTH:
5143 square( this, t_dirt, node2 + point( 1, -2 ), node2 + point( 2, -1 ) );
5144 node -= 4;
5145 break;
5146 case direction::EAST:
5147 square( this, t_dirt, node2 + point( 4, 1 ), node2 + point( 5, 2 ) );
5148 node++;
5149 break;
5150 case direction::SOUTH:
5151 square( this, t_dirt, node2 + point( 1, 4 ), node2 + point( 2, 5 ) );
5152 node += 4;
5153 break;
5154 case direction::WEST:
5155 square( this, t_dirt, node2 + point( -2, 1 ), node2 + point( -1, 2 ) );
5156 node--;
5157 break;
5158 default:
5159 break;
5160 }
5161 }
5162 } while( !done );
5163 square( this, t_slope_up, point( 2, 2 ), point( 3, 3 ) );
5164 rotate( rng( 0, 3 ) );
5165 } else if( terrain_type == "triffid_finale" ) {
5167 // NOLINTNEXTLINE(cata-use-named-point-constants)
5168 square( this, t_dirt, point( 1, 1 ), point( 4, 4 ) );
5169 square( this, t_dirt, point( 19, 19 ), point( 22, 22 ) );
5170 // Drunken walk until we reach the heart (lower right, [19, 19])
5171 // Chance increases by 1 each turn, and gives the % chance of forcing a move
5172 // to the right or down.
5173 int chance = 0;
5174 int x = 4;
5175 int y = 4;
5176 do {
5177 ter_set( point( x, y ), t_dirt );
5178
5179 if( chance >= 10 && one_in( 10 ) ) { // Add a spawn
5180 place_spawns( GROUP_TRIFFID, 1, point( x, y ), point( x, y ), 1, true );
5181 }
5182
5183 if( rng( 0, 99 ) < chance ) { // Force movement down or to the right
5184 if( x >= 19 ) {
5185 y++;
5186 } else if( y >= 19 ) {
5187 x++;
5188 } else {
5189 if( one_in( 2 ) ) {
5190 x++;
5191 } else {
5192 y++;
5193 }
5194 }
5195 } else {
5196 chance++; // Increase chance of forced movement down/right
5197 // Weigh movement towards directions with lots of existing walls
5198 int chance_west = 0;
5199 int chance_east = 0;
5200 int chance_north = 0;
5201 int chance_south = 0;
5202 for( int dist = 1; dist <= 5; dist++ ) {
5203 if( ter( point( x - dist, y ) ) == t_root_wall ) {
5204 chance_west++;
5205 }
5206 if( ter( point( x + dist, y ) ) == t_root_wall ) {
5207 chance_east++;
5208 }
5209 if( ter( point( x, y - dist ) ) == t_root_wall ) {
5210 chance_north++;
5211 }
5212 if( ter( point( x, y + dist ) ) == t_root_wall ) {
5213 chance_south++;
5214 }
5215 }
5216 int roll = rng( 0, chance_west + chance_east + chance_north + chance_south );
5217 if( roll < chance_west && x > 0 ) {
5218 x--;
5219 } else if( roll < chance_west + chance_east && x < EAST_EDGE ) {
5220 x++;
5221 } else if( roll < chance_west + chance_east + chance_north && y > 0 ) {
5222 y--;
5223 } else if( y < SOUTH_EDGE ) {
5224 y++;
5225 }
5226 } // Done with drunken walk
5227 } while( x < 19 || y < 19 );
5228 // NOLINTNEXTLINE(cata-use-named-point-constants)
5229 square( this, t_slope_up, point( 1, 1 ), point( 2, 2 ) );
5230 place_spawns( GROUP_TRIFFID_HEART, 1, point( 21, 21 ), point( 21, 21 ), 1, true );
5231
5232 }
5233}
ter_id t_root_wall
Definition: mapdata.cpp:684
static const mongroup_id GROUP_TRIFFID_OUTER("GROUP_TRIFFID_OUTER")
static const mongroup_id GROUP_SPIDER("GROUP_SPIDER")
static const mongroup_id GROUP_TRIFFID("GROUP_TRIFFID")
static const mongroup_id GROUP_TRIFFID_HEART("GROUP_TRIFFID_HEART")

References abs_sub, add_field(), detail::digits::done, EAST, EAST_EDGE, fd_web, fill_background(), GROUP_SPIDER, GROUP_TRIFFID, GROUP_TRIFFID_HEART, GROUP_TRIFFID_OUTER, avatar_action::move(), NORTH, one_in(), place_spawns(), point_south_east, random_entry(), rng(), rotate(), SOUTH, SOUTH_EDGE, square(), t_dirt, t_root_wall, t_slope_down, t_slope_up, ter(), ter_set(), mapgendata::terrain_type(), WEST, point::x, point::y, and tripoint::z.

Referenced by draw_map().

◆ drawsq()

void map::drawsq ( const catacurses::window w,
const tripoint p,
const drawsq_params params 
) const

Draw the map tile at the given coordinate.

Called by map::draw().

Parameters
wThe window we are drawing in
pThe tile on this map to draw.
paramsDraw parameters.

Definition at line 5820 of file map.cpp.

5822{
5823 // If we are in tiles mode, the only thing we want to potentially draw is a highlight
5824 if( is_draw_tiles_mode() ) {
5825 if( params.highlight() ) {
5826 g->draw_highlight( p );
5827 }
5828 return;
5829 }
5830
5831 if( !inbounds( p ) ) {
5832 return;
5833 }
5834
5835 const tripoint view_center = params.center();
5836 const int k = p.x + getmaxx( w ) / 2 - view_center.x;
5837 const int j = p.y + getmaxy( w ) / 2 - view_center.y;
5838 wmove( w, point( k, j ) );
5839
5840 const maptile tile = maptile_at( p );
5841 if( draw_maptile( w, p, tile, params ) ) {
5842 return;
5843 }
5844
5845 tripoint below( p.xy(), p.z - 1 );
5846 const maptile tile_below = maptile_at( below );
5847 draw_from_above( w, below, tile_below, params );
5848}
maptile maptile_at(const tripoint &p) const
Definition: map.cpp:199
constexpr drawsq_params & center(const tripoint &p)
Set view center.
Definition: map.h:283

References drawsq_params::center(), draw_from_above(), draw_maptile(), g, catacurses::getmaxx(), catacurses::getmaxy(), drawsq_params::highlight(), inbounds(), is_draw_tiles_mode(), maptile_at(), catacurses::wmove(), tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by choose_adjacent_highlight(), anonymous_namespace{animation.cpp}::draw_line_curses(), game::draw_look_around_cursor(), editmap::draw_main_ui_overlay(), target_ui::draw_terrain_overlay(), game::pickup(), place_construction(), and editmap::uber_draw_ter().

◆ drop_everything()

void map::drop_everything ( const tripoint p)

Handles map objects of given type (not creatures) falling down.

Returns true if anything changed.

Definition at line 2042 of file map.cpp.

2043{
2044 //Do a suspension check so that there won't be a floor there for the rest of this check.
2045 if( has_flag( "SUSPENDED", p ) ) {
2047 }
2048 if( has_floor( p ) ) {
2049 return;
2050 }
2051
2052 drop_furniture( p );
2053 drop_items( p );
2054 drop_vehicle( p );
2055 drop_fields( p );
2056}
void drop_furniture(const tripoint &p)
Definition: map.cpp:2058
void drop_items(const tripoint &p)
Definition: map.cpp:2200
void drop_vehicle(const tripoint &p)
Definition: map.cpp:2230
void collapse_invalid_suspension(const tripoint &point)
Triggers a recursive collapse of suspended tiles based on their support validity.
Definition: map.cpp:2949
void drop_fields(const tripoint &p)
Definition: map.cpp:2240
bool has_floor(const tripoint &p) const
Definition: map.cpp:2004

References collapse_invalid_suspension(), drop_fields(), drop_furniture(), drop_items(), drop_vehicle(), has_flag(), and has_floor().

Referenced by process_falling().

◆ drop_fields()

void map::drop_fields ( const tripoint p)

Definition at line 2240 of file map.cpp.

2241{
2242 field &fld = field_at( p );
2243 if( fld.field_count() == 0 ) {
2244 return;
2245 }
2246
2247 std::list<field_type_id> dropped;
2248 const tripoint below = p + tripoint_below;
2249 for( const auto &iter : fld ) {
2250 const field_entry &entry = iter.second;
2251 // For now only drop cosmetic fields, which don't warrant per-turn check
2252 // Active fields "drop themselves"
2253 if( entry.decays_on_actualize() ) {
2254 add_field( below, entry.get_field_type(), entry.get_field_intensity(), entry.get_field_age() );
2255 dropped.push_back( entry.get_field_type() );
2256 }
2257 }
2258
2259 for( const auto &entry : dropped ) {
2260 fld.remove_field( entry );
2261 }
2262}
bool decays_on_actualize() const
Definition: field.h:105

References add_field(), field_entry::decays_on_actualize(), field_at(), field::field_count(), field_entry::get_field_age(), field_entry::get_field_intensity(), field_entry::get_field_type(), field::remove_field(), and tripoint_below.

Referenced by drop_everything().

◆ drop_furniture()

void map::drop_furniture ( const tripoint p)

Definition at line 2058 of file map.cpp.

2059{
2060 const furn_id frn = furn( p );
2061 if( frn == f_null ) {
2062 return;
2063 }
2064
2065 enum support_state {
2066 SS_NO_SUPPORT = 0,
2067 SS_BAD_SUPPORT, // TODO: Implement bad, shaky support
2068 SS_GOOD_SUPPORT,
2069 SS_FLOOR, // Like good support, but bash floor instead of tile below
2070 SS_CREATURE
2071 };
2072
2073 // Checks if the tile:
2074 // has floor (supports unconditionally)
2075 // has support below
2076 // has unsupporting furniture below (bad support, things should "slide" if possible)
2077 // has no support and thus allows things to fall through
2078 const auto check_tile = [this]( const tripoint & pt ) {
2079 if( has_floor( pt ) ) {
2080 return SS_FLOOR;
2081 }
2082
2083 tripoint below_dest( pt.xy(), pt.z - 1 );
2084 if( supports_above( below_dest ) ) {
2085 return SS_GOOD_SUPPORT;
2086 }
2087
2088 const furn_id frn_id = furn( below_dest );
2089 if( frn_id != f_null ) {
2090 const furn_t &frn = frn_id.obj();
2091 // Allow crushing tiny/nocollide furniture
2092 if( !frn.has_flag( "TINY" ) && !frn.has_flag( "NOCOLLIDE" ) ) {
2093 return SS_BAD_SUPPORT;
2094 }
2095 }
2096
2097 if( g->critter_at( below_dest ) != nullptr ) {
2098 // Smash a critter
2099 return SS_CREATURE;
2100 }
2101
2102 return SS_NO_SUPPORT;
2103 };
2104
2105 tripoint current( p.xy(), p.z + 1 );
2106 support_state last_state = SS_NO_SUPPORT;
2107 while( last_state == SS_NO_SUPPORT ) {
2108 current.z--;
2109 // Check current tile
2110 last_state = check_tile( current );
2111 }
2112
2113 if( current == p ) {
2114 // Nothing happened
2115 if( last_state != SS_FLOOR ) {
2116 support_dirty( current );
2117 }
2118
2119 return;
2120 }
2121
2122 furn_set( p, f_null );
2123 furn_set( current, frn );
2124
2125 // If it's sealed, we need to drop items with it
2126 const auto &frn_obj = frn.obj();
2127 if( frn_obj.has_flag( TFLAG_SEALED ) && has_items( p ) ) {
2128 auto old_items = i_at( p );
2129 auto new_items = i_at( current );
2130 for( const auto &it : old_items ) {
2131 new_items.insert( it );
2132 }
2133
2134 i_clear( p );
2135 }
2136
2137 // Approximate weight/"bulkiness" based on strength to drag
2138 int weight;
2139 if( frn_obj.has_flag( "TINY" ) || frn_obj.has_flag( "NOCOLLIDE" ) ) {
2140 weight = 5;
2141 } else {
2142 weight = frn_obj.is_movable() ? frn_obj.move_str_req : 20;
2143 }
2144
2145 if( frn_obj.has_flag( "ROUGH" ) || frn_obj.has_flag( "SHARP" ) ) {
2146 weight += 5;
2147 }
2148
2149 // TODO: Balance this.
2150 int dmg = weight * ( p.z - current.z );
2151
2152 if( last_state == SS_FLOOR ) {
2153 // Bash the same tile twice - once for furniture, once for the floor
2154 bash( current, dmg, false, false, true );
2155 bash( current, dmg, false, false, true );
2156 } else if( last_state == SS_BAD_SUPPORT || last_state == SS_GOOD_SUPPORT ) {
2157 bash( current, dmg, false, false, false );
2158 tripoint below( current.xy(), current.z - 1 );
2159 bash( below, dmg, false, false, false );
2160 } else if( last_state == SS_CREATURE ) {
2161 const std::string &furn_name = frn_obj.name();
2162 bash( current, dmg, false, false, false );
2163 tripoint below( current.xy(), current.z - 1 );
2164 Creature *critter = g->critter_at( below );
2165 if( critter == nullptr ) {
2166 debugmsg( "drop_furniture couldn't find creature at %d,%d,%d",
2167 below.x, below.y, below.z );
2168 return;
2169 }
2170
2171 critter->add_msg_player_or_npc( m_bad, _( "Falling %s hits you!" ),
2172 _( "Falling %s hits <npcname>" ),
2173 furn_name );
2174 // TODO: A chance to dodge/uncanny dodge
2175 player *pl = dynamic_cast<player *>( critter );
2176 monster *mon = dynamic_cast<monster *>( critter );
2177 if( pl != nullptr ) {
2178 pl->deal_damage( nullptr, bodypart_id( "torso" ), damage_instance( DT_BASH, rng( dmg / 3, dmg ), 0,
2179 0.5f ) );
2180 pl->deal_damage( nullptr, bodypart_id( "head" ), damage_instance( DT_BASH, rng( dmg / 3, dmg ), 0,
2181 0.5f ) );
2182 pl->deal_damage( nullptr, bodypart_id( "leg_l" ), damage_instance( DT_BASH, rng( dmg / 2, dmg ), 0,
2183 0.4f ) );
2184 pl->deal_damage( nullptr, bodypart_id( "leg_r" ), damage_instance( DT_BASH, rng( dmg / 2, dmg ), 0,
2185 0.4f ) );
2186 pl->deal_damage( nullptr, bodypart_id( "arm_l" ), damage_instance( DT_BASH, rng( dmg / 2, dmg ), 0,
2187 0.4f ) );
2188 pl->deal_damage( nullptr, bodypart_id( "arm_r" ), damage_instance( DT_BASH, rng( dmg / 2, dmg ), 0,
2189 0.4f ) );
2190 } else if( mon != nullptr ) {
2191 // TODO: Monster's armor and size - don't crush hulks with chairs
2192 mon->apply_damage( nullptr, bodypart_id( "torso" ), rng( dmg, dmg * 2 ) );
2193 }
2194 }
2195
2196 // Re-queue for another check, in case bash destroyed something
2197 support_dirty( current );
2198}
bool supports_above(const tripoint &p) const
Does this tile support vehicles and furniture above it.
Definition: map.cpp:2017
void apply_damage(Creature *source, bodypart_id bp, int dam, bool bypass_med=false) override
Definition: monster.cpp:1660

References _, Creature::add_msg_player_or_npc(), monster::apply_damage(), bash(), Character::deal_damage(), debugmsg, DT_BASH, f_null, furn(), furn_set(), g, map_data_common_t::has_flag(), has_floor(), has_items(), i_at(), i_clear(), m_bad, int_id< T >::obj(), rng(), support_dirty(), supports_above(), TFLAG_SEALED, tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by drop_everything().

◆ drop_items()

void map::drop_items ( const tripoint p)

Definition at line 2200 of file map.cpp.

2201{
2202 if( !has_items( p ) ) {
2203 return;
2204 }
2205
2206 auto items = i_at( p );
2207 // TODO: Make items check the volume tile below can accept
2208 // rather than disappearing if it would be overloaded
2209
2210 tripoint below( p );
2211 while( !has_floor( below ) ) {
2212 below.z--;
2213 }
2214
2215 if( below == p ) {
2216 return;
2217 }
2218
2219 for( const auto &i : items ) {
2220 // TODO: Bash the item up before adding it
2221 // TODO: Bash the creature, terrain, furniture and vehicles on the tile
2222 add_item_or_charges( below, i );
2223 }
2224
2225 // Just to make a sound for now
2226 bash( below, 1 );
2227 i_clear( p );
2228}

References add_item_or_charges(), bash(), has_floor(), has_items(), i_at(), i_clear(), and tripoint::z.

Referenced by drop_everything().

◆ drop_vehicle()

void map::drop_vehicle ( const tripoint p)

Definition at line 2230 of file map.cpp.

2231{
2232 const optional_vpart_position vp = veh_at( p );
2233 if( !vp ) {
2234 return;
2235 }
2236
2237 vp->vehicle().is_falling = true;
2238}

References veh_at().

Referenced by drop_everything().

◆ emit_field()

void map::emit_field ( const tripoint pos,
const emit_id src,
float  mul = 1.0f 
)

Runs one cycle of emission src which may result in propagation of fields.

Parameters
posLocation of emission
srcId of object producing the emission
mulMultiplies the chance and possibly qty (if chance*mul > 100) of the emission

Definition at line 1928 of file map_field.cpp.

1929{
1930 if( !src.is_valid() ) {
1931 return;
1932 }
1933
1934 const float chance = src->chance() * mul;
1935 if( src.is_valid() && x_in_y( chance, 100 ) ) {
1936 const int qty = chance > 100.0f ? roll_remainder( src->qty() * chance / 100.0f ) : src->qty();
1937 propagate_field( pos, src->field(), qty, src->intensity() );
1938 }
1939}
int intensity() const
Intensity of output fields, range [1..maximum_intensity].
Definition: emit.h:34
int qty() const
Units of field to generate per turn subject to chance.
Definition: emit.h:39
int chance() const
Chance to emit each turn, range [1..100].
Definition: emit.h:44
field_type_id field() const
Type of field to emit.
Definition: emit.h:29
void propagate_field(const tripoint &center, const field_type_id &type, int amount, int max_intensity=0)
Definition: map_field.cpp:1941
bool is_valid() const
Returns whether this id is valid, that means whether it refers to an existing object.
Definition: achievement.cpp:65
int roll_remainder(double value)
Definition: rng.cpp:96

References emit::chance(), emit::field(), emit::intensity(), string_id< T >::is_valid(), propagate_field(), emit::qty(), roll_remainder(), and x_in_y().

Referenced by enchantment::activate_passive(), Character::burn_fuel(), game::do_turn(), Character::heat_emission(), Character::passive_power_gen(), projectile_attack(), and emit_actor::use().

◆ examine()

void map::examine ( Character p,
const tripoint pos 
)

Calls the examine function of furniture or terrain at given tile, for given character.

Examines the tile pos, with character as the "examinator" Casts Character to player because player/NPC split isn't done yet.

Will only examine terrain if furniture had iexamine::none as the examine function.

Definition at line 1617 of file map.cpp.

1618{
1619 const auto furn_here = furn( pos ).obj();
1620 if( furn_here.examine != iexamine::none ) {
1621 furn_here.examine( dynamic_cast<player &>( p ), pos );
1622 } else {
1623 ter( pos ).obj().examine( dynamic_cast<player &>( p ), pos );
1624 }
1625}
void none(player &p, const tripoint &examp)
Nothing player can interact with here.
Definition: iexamine.cpp:247
iexamine_function examine
Definition: mapdata.h:398

References map_data_common_t::examine, furn(), iexamine::none(), int_id< T >::obj(), wrapped_vehicle::pos, and ter().

Referenced by npc::pick_up_item(), and water_from().

◆ features() [1/2]

std::string map::features ( const point p)
inline

Definition at line 960 of file map.h.

960 {
961 return features( tripoint( p, abs_sub.z ) );
962 }
std::string features(const tripoint &p)
Definition: map.cpp:1711

References abs_sub, features(), and tripoint::z.

◆ features() [2/2]

std::string map::features ( const tripoint p)

Definition at line 1711 of file map.cpp.

1712{
1713 std::string result;
1714 const auto add = [&]( const std::string & text ) {
1715 if( !result.empty() ) {
1716 result += " ";
1717 }
1718 result += text;
1719 };
1720 const auto add_if = [&]( const bool cond, const std::string & text ) {
1721 if( cond ) {
1722 add( text );
1723 }
1724 };
1725 // This is used in an info window that is 46 characters wide, and is expected
1726 // to take up one line. So, make sure it does that.
1727 // FIXME: can't control length of localized text.
1728 add_if( is_bashable( p ), _( "Smashable." ) );
1729 add_if( has_flag( "DIGGABLE", p ), _( "Diggable." ) );
1730 add_if( has_flag( "PLOWABLE", p ), _( "Plowable." ) );
1731 add_if( has_flag( "ROUGH", p ), _( "Rough." ) );
1732 add_if( has_flag( "UNSTABLE", p ), _( "Unstable." ) );
1733 add_if( has_flag( "SHARP", p ), _( "Sharp." ) );
1734 add_if( has_flag( "FLAT", p ), _( "Flat." ) );
1735 add_if( has_flag( "EASY_DECONSTRUCT", p ), _( "Simple." ) );
1736 add_if( has_flag( "MOUNTABLE", p ), _( "Mountable." ) );
1737 return result;
1738}
bool is_bashable(const tripoint &p, bool allow_floor=false) const
Returns true if there is a bashable vehicle part or the furn/terrain is bashable at p.
Definition: map.cpp:2411
type add(type dir1, type dir2)
Returns a sum of two numbers.
Definition: overmap.cpp:4192

References _, om_direction::add(), has_flag(), and is_bashable().

Referenced by features(), game::print_terrain_info(), and editmap::update_view_with_help().

◆ field_at() [1/2]

field & map::field_at ( const tripoint p)

Gets fields that are here.

Both for querying and edition.

Definition at line 5295 of file map.cpp.

5296{
5297 if( !inbounds( p ) ) {
5298 nulfield = field();
5299 return nulfield;
5300 }
5301
5302 point l;
5303 submap *const current_submap = get_submap_at( p, l );
5304
5305 return current_submap->get_field( l );
5306}
static field nulfield
Definition: map.cpp:139

References submap::get_field(), get_submap_at(), inbounds(), and nulfield.

◆ field_at() [2/2]

const field & map::field_at ( const tripoint p) const

Get the fields that are here.

This is for querying and looking at it only, one can not change the fields.

Parameters
pThe local map coordinates, if out of bounds, returns an empty field.

Definition at line 5279 of file map.cpp.

5280{
5281 if( !inbounds( p ) ) {
5282 nulfield = field();
5283 return nulfield;
5284 }
5285
5286 point l;
5287 submap *const current_submap = get_submap_at( p, l );
5288
5289 return current_submap->get_field( l );
5290}

References submap::get_field(), get_submap_at(), inbounds(), and nulfield.

Referenced by Character::adjacent_tile(), npc::could_move_onto(), dangerous_field_at(), decay_cosmetic_fields(), editmap_hilight::draw(), editmap::draw_main_ui_overlay(), drop_fields(), get_convection_temperature(), game::get_dangerous_tile(), get_field(), get_field_age(), get_field_intensity(), npc::good_escape_direction(), advanced_inv_area::init(), mop_spills(), game::print_fields_info(), process_fields_in_submap(), smash(), and Character::symbol_color().

◆ fill_funnels()

void map::fill_funnels ( const tripoint p,
const time_point since 
)
protected

Try to fill funnel based items here.

Simulates rain from since till now.

Parameters
pThe location in this map where to fill funnels.

Definition at line 7116 of file map.cpp.

7117{
7118 const auto &tr = tr_at( p );
7119 if( !tr.is_funnel() ) {
7120 return;
7121 }
7122 // Note: the inside/outside cache might not be correct at this time
7124 return;
7125 }
7126 auto items = i_at( p );
7127 units::volume maxvolume = 0_ml;
7128 auto biggest_container = items.end();
7129 for( auto candidate = items.begin(); candidate != items.end(); ++candidate ) {
7130 if( candidate->is_funnel_container( maxvolume ) ) {
7131 biggest_container = candidate;
7132 }
7133 }
7134 if( biggest_container != items.end() ) {
7135 retroactively_fill_from_funnel( *biggest_container, tr, since, calendar::turn, getabs( p ) );
7136 }
7137}
void retroactively_fill_from_funnel(item &it, const trap &tr, const time_point &start, const time_point &end, const tripoint &pos)
Determine what a funnel has filled out of game, using funnelcontainer.bday as a starting point.
Definition: weather.cpp:184

References getabs(), has_flag_ter_or_furn(), i_at(), retroactively_fill_from_funnel(), TFLAG_INDOORS, tr_at(), and calendar::turn.

Referenced by actualize().

◆ find_clear_path()

std::vector< tripoint > map::find_clear_path ( const tripoint source,
const tripoint destination 
) const

Iteratively tries Bresenham lines with different biases until it finds a clear line or decides there isn't one.

returns the line found, which may be the straight line, but blocked.

Definition at line 6253 of file map.cpp.

6255{
6256 // TODO: Push this junk down into the Bresenham method, it's already doing it.
6257 const point d( destination.xy() - source.xy() );
6258 const point a( std::abs( d.x ) * 2, std::abs( d.y ) * 2 );
6259 const int dominant = std::max( a.x, a.y );
6260 const int minor = std::min( a.x, a.y );
6261 // This seems to be the method for finding the ideal start value for the error value.
6262 const int ideal_start_offset = minor - dominant / 2;
6263 const int start_sign = ( ideal_start_offset > 0 ) - ( ideal_start_offset < 0 );
6264 // Not totally sure of the derivation.
6265 const int max_start_offset = std::abs( ideal_start_offset ) * 2 + 1;
6266 for( int horizontal_offset = -1; horizontal_offset <= max_start_offset; ++horizontal_offset ) {
6267 int candidate_offset = horizontal_offset * start_sign;
6268 if( sees( source, destination, rl_dist( source, destination ), candidate_offset ) ) {
6269 return line_to( source, destination, candidate_offset, 0 );
6270 }
6271 }
6272 // If we couldn't find a clear LoS, just return the ideal one.
6273 return line_to( source, destination, ideal_start_offset, 0 );
6274}
bool sees(const tripoint &F, const tripoint &T, int range) const
Returns whether F sees T with a view range of range.
Definition: map.cpp:6122

References a, line_to(), minor, rl_dist(), sees(), point::x, tripoint::xy(), and point::y.

Referenced by mattack::boomer(), mattack::boomer_glow(), leap_actor::call(), mattack::flame(), projectile_attack(), mattack::ranged_pull(), target_ui::set_cursor_pos(), and ranged::targetable_creatures().

◆ find_furnitures_with_flag_in_radius()

std::list< tripoint > map::find_furnitures_with_flag_in_radius ( const tripoint center,
size_t  radius,
const std::string &  flag,
size_t  radiusz = 0 
)

returns positions of furnitures with matching flag in the specified radius

Definition at line 8665 of file map.cpp.

8669{
8670 std::list<tripoint> furn_locs;
8671 for( const auto &furn_loc : points_in_radius( center, radius, radiusz ) ) {
8672 if( has_flag_furn( flag, furn_loc ) ) {
8673 furn_locs.push_back( furn_loc );
8674 }
8675 }
8676 return furn_locs;
8677}

References center, has_flag_furn(), and points_in_radius().

Referenced by activity_handlers::operation_do_turn(), and activity_handlers::operation_finish().

◆ flammable_items_at()

bool map::flammable_items_at ( const tripoint p,
int  threshold = 0 
)

Checks if there are any flammable items on the tile.

Parameters
ptile to check
thresholdFuel threshold (lower means worse fuels are accepted).

Definition at line 2622 of file map.cpp.

2623{
2624 if( !has_items( p ) ||
2626 // Sealed containers don't allow fire, so shouldn't allow setting the fire either
2627 return false;
2628 }
2629
2630 for( const auto &i : i_at( p ) ) {
2631 if( i.flammable( threshold ) ) {
2632 return true;
2633 }
2634 }
2635
2636 return false;
2637}
@ TFLAG_ALLOW_FIELD_EFFECT
Definition: mapdata.h:286

References has_flag(), has_items(), i_at(), TFLAG_ALLOW_FIELD_EFFECT, and TFLAG_SEALED.

Referenced by MapExtras::burned_ground_parser(), is_flammable(), firestarter_actor::moves_cost_by_fuel(), and process_fields_in_submap().

◆ free_volume()

units::volume map::free_volume ( const tripoint p)

Definition at line 4211 of file map.cpp.

4212{
4213 return i_at( p ).free_volume();
4214}
units::volume free_volume() const
Definition: item_stack.cpp:141

References item_stack::free_volume(), and i_at().

Referenced by activity_on_turn_move_loot(), add_item_or_charges(), and advanced_inv_area::free_volume().

◆ function_over()

template<typename Functor >
void map::function_over ( const tripoint start,
const tripoint end,
Functor  fun 
) const
private

Runs a functor over given submaps over submaps in the area, getting next submap only when the current one "runs out" rather than every time.

gp in the functor is Grid (like get_submap_at_grid) coordinate of the submap, Will silently clip the area to map bounds.

Parameters
startStarting point for function
endEnd point for function
funFunction to run

Definition at line 8479 of file map.cpp.

8480{
8481 // start and end are just two points, end can be "before" start
8482 // Also clip the area to map area
8483 const tripoint min( std::max( std::min( start.x, end.x ), 0 ), std::max( std::min( start.y, end.y ),
8484 0 ), std::max( std::min( start.z, end.z ), -OVERMAP_DEPTH ) );
8485 const tripoint max( std::min( std::max( start.x, end.x ), SEEX * my_MAPSIZE - 1 ),
8486 std::min( std::max( start.y, end.y ), SEEY * my_MAPSIZE - 1 ), std::min( std::max( start.z, end.z ),
8487 OVERMAP_HEIGHT ) );
8488
8489 // Submaps that contain the bounding points
8490 const point min_sm( min.x / SEEX, min.y / SEEY );
8491 const point max_sm( max.x / SEEX, max.y / SEEY );
8492 // Z outermost, because submaps are flat
8493 tripoint gp;
8494 int &z = gp.z;
8495 int &smx = gp.x;
8496 int &smy = gp.y;
8497 for( z = min.z; z <= max.z; z++ ) {
8498 for( smx = min_sm.x; smx <= max_sm.x; smx++ ) {
8499 for( smy = min_sm.y; smy <= max_sm.y; smy++ ) {
8500 submap const *cur_submap = get_submap_at_grid( { smx, smy, z } );
8501 // Bounds on the submap coordinates
8502 const point sm_min( smx > min_sm.x ? 0 : min.x % SEEX, smy > min_sm.y ? 0 : min.y % SEEY );
8503 const point sm_max( smx < max_sm.x ? SEEX - 1 : max.x % SEEX,
8504 smy < max_sm.y ? SEEY - 1 : max.y % SEEY );
8505
8506 point lp;
8507 int &sx = lp.x;
8508 int &sy = lp.y;
8509 for( sx = sm_min.x; sx <= sm_max.x; ++sx ) {
8510 for( sy = sm_min.y; sy <= sm_max.y; ++sy ) {
8511 const iteration_state rval = fun( gp, cur_submap, lp );
8512 if( rval != ITER_CONTINUE ) {
8513 switch( rval ) {
8514 case ITER_SKIP_ZLEVEL:
8515 smx = my_MAPSIZE + 1;
8516 smy = my_MAPSIZE + 1;
8517 // Fall through
8518 case ITER_SKIP_SUBMAP:
8519 sx = SEEX;
8520 sy = SEEY;
8521 break;
8522 default:
8523 return;
8524 }
8525 }
8526 }
8527 }
8528 }
8529 }
8530 }
8531}
iteration_state
Enum used by functors in function_over to control execution.
Definition: map.h:1967

References get_submap_at_grid(), ITER_CONTINUE, ITER_SKIP_SUBMAP, ITER_SKIP_ZLEVEL, my_MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, SEEX, SEEY, sx, sy, point::x, tripoint::x, point::y, tripoint::y, and tripoint::z.

Referenced by scent_blockers().

◆ furn() [1/2]

furn_id map::furn ( const point p) const
inline

Definition at line 854 of file map.h.

854 {
855 return furn( tripoint( p, abs_sub.z ) );
856 }

References abs_sub, furn(), and tripoint::z.

◆ furn() [2/2]

furn_id map::furn ( const tripoint p) const

Definition at line 1345 of file map.cpp.

1346{
1347 if( !inbounds( p ) ) {
1348 return f_null;
1349 }
1350
1351 point l;
1352 submap *const current_submap = get_submap_at( p, l );
1353
1354 return current_submap->get_furn( l );
1355}
furn_id get_furn(const point &p) const
Definition: submap.h:86

References f_null, submap::get_furn(), get_submap_at(), and inbounds().

Referenced by computer_session::action_blood_anal(), computer_session::action_sample(), actualize(), ter_furn_transform::add_all_messages(), iexamine::arcfurnace_empty(), iexamine::arcfurnace_full(), iexamine::autoclave_full(), bash_furn_success(), bash_rating(), bash_resistance(), bash_strength(), bash_ter_furn(), board_up(), MapExtras::burned_ground_parser(), can_construct(), can_examine_at(), can_move_furniture(), construct::check_deconstruct(), vehicle::autodrive_controller::check_drivable(), deploy_tent_actor::check_intact(), close_door(), doors::close_door(), coverage(), create_anomaly(), MapExtras::dead_vegetation_parser(), iexamine::deployed_furniture(), destroy_furn(), displace_items_except_one_liquid(), game::do_turn(), construct::done_deconstruct(), editmap_hilight::draw(), draw_lab(), editmap::draw_main_ui_overlay(), drop_furniture(), Character::env_surgery_bonus(), examine(), game::examine(), game::extended_description(), computer_session::failure_destroy_blood(), farm_action(), feature< furn_id >(), iexamine::fertilize_plant(), talk_function::field_harvest(), activity_handlers::fill_liquid_do_turn(), find_base_construction(), find_potential_computer_point(), iexamine::fireplace(), Character::floor_bedding_warmth(), inventory::form_from_map(), furn(), furn_is_supported(), furnname(), generic_multi_activity_locations(), get_changed_ids_from_update(), activity_handlers::repair_activity_hack::anonymous_namespace{activity_handlers.cpp}::get_fake_tool(), get_furn_transforms_into(), get_hack_type(), get_harvest(), get_harvest_names(), get_keg_capacity(), grab(), game::grabbed_furn_move(), grow_plant(), activity_handlers::hacksaw_finish(), iexamine::harvest_plant(), has_adjacent_furniture_with(), has_flag_furn(), has_furn(), has_pre_terrain(), is_bashable(), is_bashable_furn(), iexamine::kiln_empty(), iexamine::kiln_full(), talk_function::loot_building(), map_stack::max_volume(), mill_activate(), iexamine::mill_finalize(), mill_load_food(), avatar_action::move(), move_cost(), obstacle_coverage(), om_harvest_furn(), iexamine::on_smoke_out(), open_door(), activity_handlers::oxytorch_finish(), tutorial_game::per_turn(), Character::place_corpse(), game::place_player(), mission_start::place_priest_diary(), activity_handlers::plant_seed_finish(), iexamine::portable_structure(), game::print_terrain_info(), process_items_in_submap(), iexamine::quern_examine(), rad_scorch(), iexamine::reload_furniture(), resolve_regional_terrain_and_furniture(), set_item_map_or_vehicle(), smash(), smoker_activate(), smoker_finalize(), smoker_load_food(), iexamine::smoker_options(), fungal_effects::spread_fungus_one_tile(), ter_furn_transform::transform(), editmap::update_view_with_help(), use_charges(), iexamine::use_furn_fake_item(), game::walk_move(), water_from(), and workbench_crafting_speed_multiplier().

◆ furn_set() [1/2]

void map::furn_set ( const point p,
const furn_id new_furniture 
)
inline

Definition at line 866 of file map.h.

866 {
867 furn_set( tripoint( p, abs_sub.z ), new_furniture );
868 }

References abs_sub, furn_set(), and tripoint::z.

◆ furn_set() [2/2]

void map::furn_set ( const tripoint p,
const furn_id new_furniture,
cata::poly_serialized< active_tile_data new_active = nullptr 
)

Sets the furniture at given position.

Parameters
pPosition within the map
new_furnitureId of new furniture
new_activeOverride default active tile of new furniture

Definition at line 1357 of file map.cpp.

1359{
1360 if( !inbounds( p ) ) {
1361 return;
1362 }
1363
1364 point l;
1365 submap *const current_submap = get_submap_at( p, l );
1366 const furn_id old_id = current_submap->get_furn( l );
1367 if( old_id == new_furniture ) {
1368 // Nothing changed
1369 return;
1370 }
1371
1372 current_submap->set_furn( l, new_furniture );
1373
1374 // Set the dirty flags
1375 const furn_t &old_t = old_id.obj();
1376 const furn_t &new_t = new_furniture.obj();
1377
1378 // If player has grabbed this furniture and it's no longer grabbable, release the grab.
1379 if( g->u.get_grab_type() == OBJECT_FURNITURE && g->u.grab_point == p && !new_t.is_movable() ) {
1380 add_msg( _( "The %s you were grabbing is destroyed!" ), old_t.name() );
1381 g->u.grab( OBJECT_NONE );
1382 }
1383 // If a creature was crushed under a rubble -> free it
1384 if( old_id == f_rubble && new_furniture == f_null ) {
1385 Creature *c = g->critter_at( p );
1386 if( c ) {
1387 c->remove_effect( effect_crushed );
1388 }
1389 }
1390 if( new_t.has_flag( "EMITTER" ) ) {
1391 field_furn_locs.push_back( p );
1392 }
1393 if( old_t.transparent != new_t.transparent ) {
1396 }
1397
1398 if( old_t.has_flag( TFLAG_INDOORS ) != new_t.has_flag( TFLAG_INDOORS ) ) {
1400 }
1401
1402 if( old_t.has_flag( TFLAG_NO_FLOOR ) != new_t.has_flag( TFLAG_NO_FLOOR ) ) {
1405 }
1406
1407 if( old_t.has_flag( TFLAG_SUN_ROOF_ABOVE ) != new_t.has_flag( TFLAG_SUN_ROOF_ABOVE ) ) {
1408 set_floor_cache_dirty( p.z + 1 );
1409 }
1410
1412
1414
1415 // TODO: Limit to changes that affect move cost, traps and stairs
1417
1418 // Make sure the furniture falls if it needs to
1419 support_dirty( p );
1420 tripoint above( p.xy(), p.z + 1 );
1421 // Make sure that if we supported something and no longer do so, it falls down
1422 support_dirty( above );
1423
1424 if( old_t.active ) {
1425 current_submap->active_furniture.erase( point_sm_ms( l ) );
1426 // TODO: Only for g->m? Observer pattern?
1428 }
1429 if( new_t.active || new_active ) {
1431 if( new_active ) {
1432 atd = new_active;
1433 } else {
1434 atd = new_t.active->clone();
1435 atd->set_last_updated( calendar::turn );
1436 }
1437 current_submap->active_furniture[point_sm_ms( l )] = atd;
1439 }
1440}
Copyable unique_ptr that writes and reads objects of derived types.
void on_changed(const tripoint_abs_ms &p)
Updates grid at given global map square coordinate.
void set_floor_cache_dirty(const int zlev)
Definition: map.h:453
void set_memory_seen_cache_dirty(const tripoint &p)
Definition: map.h:468
std::map< point_sm_ms, cata::poly_serialized< active_tile_data > > active_furniture
Definition: submap.h:250
void set_furn(const point &p, furn_id furn)
Definition: submap.h:90
coords::coord_point< point, coords::origin::submap, coords::ms > point_sm_ms
Definition: coordinates.h:473
coords::coord_point< tripoint, coords::origin::abs, coords::ms > tripoint_abs_ms
Definition: coordinates.h:486
distribution_grid_tracker & get_distribution_grid_tracker()
Returns distribution grid tracker that is a part of the global game *g.
Definition: game.cpp:12130
@ OBJECT_NONE
Definition: enums.h:187
@ OBJECT_FURNITURE
Definition: enums.h:197
bool is_movable() const
Definition: mapdata.cpp:1516
cata::poly_serialized< active_tile_data > active
Definition: mapdata.h:519
std::string name() const
Definition: mapdata.cpp:511

References _, furn_t::active, submap::active_furniture, add_msg(), c, effect_crushed, f_null, f_rubble, field_furn_locs, g, get_distribution_grid_tracker(), submap::get_furn(), get_submap_at(), getabs(), map_data_common_t::has_flag(), inbounds(), invalidate_max_populated_zlev(), furn_t::is_movable(), map_data_common_t::name(), int_id< T >::obj(), OBJECT_FURNITURE, OBJECT_NONE, distribution_grid_tracker::on_changed(), set_floor_cache_dirty(), submap::set_furn(), set_memory_seen_cache_dirty(), set_outside_cache_dirty(), set_pathfinding_cache_dirty(), set_seen_cache_dirty(), set_transparency_cache_dirty(), support_dirty(), TFLAG_INDOORS, TFLAG_NO_FLOOR, TFLAG_SUN_ROOF_ABOVE, map_data_common_t::transparent, calendar::turn, tripoint::xy(), and tripoint::z.

Referenced by iexamine::aggie_plant(), jmapgen_sign::apply(), jmapgen_vending_machine::apply(), jmapgen_toilet::apply(), jmapgen_gaspump::apply(), jmapgen_furniture::apply(), jmapgen_terrain::apply(), jmapgen_computer::apply(), jmapgen_sealed_item::apply(), jmapgen_setmap::apply(), apply< furn_t >(), iexamine::arcfurnace_empty(), iexamine::arcfurnace_full(), iexamine::autoclave_full(), bash_furn_success(), board_up(), MapExtras::burned_ground_parser(), activity_handlers::clear_rubble_finish(), close_door(), collapse_at(), collapse_invalid_suspension(), complete_construction(), activity_handlers::cracking_finish(), create_anomaly(), MapExtras::dead_vegetation_parser(), iexamine::deployed_furniture(), displace_items_except_one_liquid(), construct::done_deconstruct(), draw_circle_furn(), draw_lab(), draw_line_furn(), draw_rough_circle_furn(), draw_square_furn(), drop_furniture(), iexamine::egg_sack_generic(), farm_action(), iexamine::fertilize_plant(), talk_function::field_harvest(), activity_handlers::fill_liquid_do_turn(), dig_activity_actor::finish(), hacking_activity_actor::finish(), iexamine::fireplace(), iexamine::flower_cactus(), iexamine::flower_dahlia(), iexamine::flower_marloss(), iexamine::flower_poppy(), mapgen_function_json_base::formatted_set_incredibly_simple(), mapf::formatted_set_simple(), iexamine::fungus(), furn_set(), iexamine::fvat_empty(), iexamine::fvat_full(), game::grabbed_furn_move(), grow_plant(), activity_handlers::hacksaw_finish(), iexamine::harvest_furn(), iexamine::harvest_furn_nectar(), iexamine::harvest_plant(), iexamine::kiln_empty(), iexamine::kiln_full(), talk_function::loot_building(), make_rubble(), mapgen_forest(), mapgen_forest_trail_curved(), mapgen_forest_trail_four_way(), mapgen_forest_trail_straight(), mapgen_forest_trail_tee(), mapgen_lake_shore(), mapgen_tutorial(), mill_activate(), iexamine::mill_finalize(), MapExtras::mx_burned_ground(), MapExtras::mx_clay_deposit(), MapExtras::mx_grave(), MapExtras::mx_house_spider(), MapExtras::mx_minefield(), MapExtras::mx_pond(), MapExtras::mx_roadworks(), MapExtras::mx_spider(), MapExtras::mx_supplydrop(), om_harvest_furn(), open_door(), iexamine::open_safe(), activity_handlers::oxytorch_finish(), place_toilet(), place_vending(), activity_handlers::plant_seed_finish(), iexamine::portable_structure(), process_fields_in_submap(), iexamine::quern_examine(), rad_scorch(), mission_start::ranch_nurse_9(), mission_start::ranch_scavenger_3(), resolve_regional_terrain_and_furniture(), iexamine::safe(), science_room(), set(), smoker_activate(), smoker_finalize(), iexamine::smoker_options(), fungal_effects::spread_fungus_one_tile(), ter_or_furn_set(), ter_furn_transform::transform(), deploy_furn_actor::use(), and deploy_tent_actor::use().

◆ furnname() [1/2]

std::string map::furnname ( const point p)
inline

Definition at line 870 of file map.h.

870 {
871 return furnname( tripoint( p, abs_sub.z ) );
872 }
std::string furnname(const tripoint &p)
Definition: map.cpp:1466

References abs_sub, furnname(), and tripoint::z.

◆ furnname() [2/2]

std::string map::furnname ( const tripoint p)

Definition at line 1466 of file map.cpp.

1467{
1468 const furn_t &f = furn( p ).obj();
1469 if( f.has_flag( "PLANT" ) ) {
1470 // Can't use item_stack::only_item() since there might be fertilizer
1471 map_stack items = i_at( p );
1472 const map_stack::iterator seed = std::find_if( items.begin(), items.end(), []( const item & it ) {
1473 return it.is_seed();
1474 } );
1475 if( seed == items.end() ) {
1476 debugmsg( "Missing seed for plant at (%d, %d, %d)", p.x, p.y, p.z );
1477 return "null";
1478 }
1479 const std::string &plant = seed->get_plant_name();
1480 return string_format( "%s (%s)", f.name(), plant );
1481 } else {
1482 return f.name();
1483 }
1484}
iterator begin()
Definition: item_stack.cpp:28
iterator end()
Definition: item_stack.cpp:33
Definition: map.h:105
int seed(player *, item *, bool, const tripoint &)
Definition: iuse.cpp:5998

References item_stack::begin(), debugmsg, item_stack::end(), furn(), map_data_common_t::has_flag(), i_at(), map_data_common_t::name(), int_id< T >::obj(), plant, iuse::seed(), string_format(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by apply_lock_picking_tool(), apply_prying_tool(), activity_handlers::clear_rubble_finish(), iexamine::egg_sack_generic(), iexamine::fireplace(), iexamine::flower_cactus(), iexamine::flower_dahlia(), iexamine::flower_marloss(), iexamine::flower_poppy(), iexamine::fungus(), furnname(), grab(), harvest_common(), iexamine::locked_object(), iexamine::locked_object_pickable(), name(), game::place_player(), game::print_terrain_info(), iexamine::reload_furniture(), iexamine::rubble(), smash(), and deploy_tent_actor::use().

◆ gas_can_spread_to()

bool map::gas_can_spread_to ( field_entry cur,
const tripoint src,
const tripoint dst 
)
private

Definition at line 211 of file map_field.cpp.

212{
213 maptile dst_tile = maptile_at( dst );
214 const field_entry *tmpfld = dst_tile.get_field().find_field( cur.get_field_type() );
215 // Candidates are existing weaker fields or navigable/flagged tiles with no field.
216 if( tmpfld == nullptr || tmpfld->get_field_intensity() < cur.get_field_intensity() ) {
217 const ter_t &ter = dst_tile.get_ter_t();
218 const furn_t &frn = dst_tile.get_furn_t();
219 return !obstructed_by_vehicle_rotation( src, dst ) &&
220 ( ter_furn_movecost( ter, frn ) > 0 || ter_furn_has_flag( ter, frn, TFLAG_PERMEABLE ) );
221 }
222 return false;
223}
bool ter_furn_has_flag(const ter_t &ter, const furn_t &furn, const ter_bitflags flag)
Definition: map_field.cpp:161
static int ter_furn_movecost(const ter_t &ter, const furn_t &furn)
Definition: map_field.cpp:166
@ TFLAG_PERMEABLE
Definition: mapdata.h:304
const ter_t & get_ter_t() const
Definition: submap.h:300
const field & get_field() const
Definition: submap.h:304
const furn_t & get_furn_t() const
Definition: submap.h:297

References field::find_field(), maptile::get_field(), field_entry::get_field_intensity(), field_entry::get_field_type(), maptile::get_furn_t(), maptile::get_ter_t(), maptile_at(), obstructed_by_vehicle_rotation(), ter(), ter_furn_has_flag(), ter_furn_movecost(), and TFLAG_PERMEABLE.

Referenced by spread_gas().

◆ gas_spread_to()

void map::gas_spread_to ( field_entry cur,
maptile dst,
const tripoint p 
)
private

Definition at line 225 of file map_field.cpp.

226{
227 const field_type_id current_type = cur.get_field_type();
228 const time_duration current_age = cur.get_field_age();
229 const int current_intensity = cur.get_field_intensity();
230 field_entry *f = dst.find_field( current_type );
231 // Nearby gas grows thicker, and ages are shared.
232 const time_duration age_fraction = current_age / current_intensity;
233 if( f != nullptr ) {
235 cur.set_field_intensity( current_intensity - 1 );
236 f->set_field_age( f->get_field_age() + age_fraction );
237 cur.set_field_age( current_age - age_fraction );
238 // Or, just create a new field.
239 } else if( add_field( p, current_type, 1, 0_turns ) ) {
240 f = dst.find_field( current_type );
241 if( f != nullptr ) {
242 f->set_field_age( age_fraction );
243 } else {
244 debugmsg( "While spreading the gas, field was added but doesn't exist." );
245 }
246 cur.set_field_intensity( current_intensity - 1 );
247 cur.set_field_age( current_age - age_fraction );
248 }
249}
int set_field_intensity(int new_intensity)
Definition: field.cpp:126
field_entry * find_field(const field_type_id &field_to_find)
Definition: submap.h:308

References add_field(), debugmsg, maptile::find_field(), field_entry::get_field_age(), field_entry::get_field_intensity(), field_entry::get_field_type(), field_entry::set_field_age(), and field_entry::set_field_intensity().

Referenced by spread_gas().

◆ generate()

void map::generate ( const tripoint p,
const time_point when 
)

Definition at line 105 of file mapgen.cpp.

106{
107 dbg( DL::Info ) << "map::generate( g[" << g.get() << "], p[" << p <<
108 "], when[" << to_string( when ) << "] )";
109
110 set_abs_sub( p );
111
112 // First we have to create new submaps and initialize them to 0 all over
113 // We create all the submaps, even if we're not a tinymap, so that map
114 // generation which overflows won't cause a crash. At the bottom of this
115 // function, we save the upper-left 4 submaps, and delete the rest.
116 // Mapgen is not z-level aware yet. Only actually initialize current z-level
117 // because other submaps won't be touched.
118 for( int gridx = 0; gridx < my_MAPSIZE; gridx++ ) {
119 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
120 const size_t grid_pos = get_nonant( { gridx, gridy, p.z } );
121 if( getsubmap( grid_pos ) ) {
122 debugmsg( "Submap already exists at (%d, %d, %d)", gridx, gridy, p.z );
123 continue;
124 }
125 setsubmap( grid_pos, new submap() );
126 // TODO: memory leak if the code below throws before the submaps get stored/deleted!
127 }
128 }
129 // x, and y are submap coordinates, convert to overmap terrain coordinates
130 // TODO: fix point types
131 tripoint_abs_omt abs_omt( sm_to_omt_copy( p ) );
132 oter_id terrain_type = overmap_buffer.ter( abs_omt );
133
134 // This attempts to scale density of zombies inversely with distance from the nearest city.
135 // In other words, make city centers dense and perimeters sparse.
136 float density = 0.0;
137 for( int i = -MON_RADIUS; i <= MON_RADIUS; i++ ) {
138 for( int j = -MON_RADIUS; j <= MON_RADIUS; j++ ) {
139 density += overmap_buffer.ter( abs_omt + point( i, j ) )->get_mondensity();
140 }
141 }
142 density = density / 100;
143
144 mapgendata dat( abs_omt, *this, density, when, nullptr );
145 draw_map( dat );
146
147 // At some point, we should add region information so we can grab the appropriate extras
148 map_extras ex = region_settings_map["default"].region_extras[terrain_type->get_extras()];
149 if( ex.chance > 0 && one_in( ex.chance ) ) {
150 std::string *extra = ex.values.pick();
151 if( extra == nullptr ) {
152 debugmsg( "failed to pick extra for type %s", terrain_type->get_extras() );
153 } else {
154 MapExtras::apply_function( *( ex.values.pick() ), *this, abs_sub );
155 }
156 }
157
158 const auto &spawns = terrain_type->get_static_spawns();
159
160 float spawn_density = 1.0f;
161 if( MonsterGroupManager::is_animal( spawns.group ) ) {
162 spawn_density = get_option< float >( "SPAWN_ANIMAL_DENSITY" );
163 } else {
164 spawn_density = get_option< float >( "SPAWN_DENSITY" );
165 }
166
167 // Apply a multiplier to the number of monsters for really high densities.
168 float odds_after_density = spawns.chance * spawn_density;
169 const float max_odds = 100 - ( 100 - spawns.chance ) / 2.0;
170 float density_multiplier = 1.0f;
171 if( odds_after_density > max_odds ) {
172 density_multiplier = 1.0f * odds_after_density / max_odds;
173 odds_after_density = max_odds;
174 }
175 const int spawn_count = roll_remainder( density_multiplier );
176
177 if( spawns.group && x_in_y( odds_after_density, 100 ) ) {
178 int pop = spawn_count * rng( spawns.population.min, spawns.population.max );
179 for( ; pop > 0; pop-- ) {
180 MonsterGroupResult spawn_details = MonsterGroupManager::GetResultFromGroup( spawns.group, &pop );
181 if( !spawn_details.name ) {
182 continue;
183 }
184 if( const cata::optional<tripoint> pt =
185 random_point( *this, [this]( const tripoint & n ) {
186 return passable( n );
187 } ) ) {
188 add_spawn( spawn_details.name, spawn_details.pack_size, *pt );
189 }
190 }
191 }
192
193 // Okay, we know who are neighbors are. Let's draw!
194 // And finally save used submaps and delete the rest.
195 for( int i = 0; i < my_MAPSIZE; i++ ) {
196 for( int j = 0; j < my_MAPSIZE; j++ ) {
197 dbg( DL::Info ) << "map::generate: submap (" << i << "," << j << ")";
198
199 const tripoint pos( i, j, p.z );
200 if( i <= 1 && j <= 1 ) {
201 saven( pos );
202 } else {
203 const size_t grid_pos = get_nonant( pos );
204 delete getsubmap( grid_pos );
205 setsubmap( grid_pos, nullptr );
206 }
207 }
208 }
209}
std::string to_string(const time_duration &d)
Returns a string showing a duration.
Definition: calendar.cpp:327
static bool is_animal(const mongroup_id &group)
Definition: mongroup.cpp:401
static MonsterGroupResult GetResultFromGroup(const mongroup_id &group, int *quantity=nullptr)
Definition: mongroup.cpp:98
void saven(const tripoint &grid)
Definition: map.cpp:6921
void set_abs_sub(const tripoint &p)
Sets abs_sub, see there.
Definition: map.cpp:8259
void draw_map(mapgendata &dat)
Definition: mapgen.cpp:2884
submap * getsubmap(size_t grididx) const
Get the submap pointer with given index in grid, the index must be valid!
Definition: map.cpp:8269
void add_spawn(const mtype_id &type, int count, const tripoint &p, bool friendly=false, int faction_id=-1, int mission_id=-1, const std::string &name="NONE") const
Definition: mapgen.cpp:5578
bool passable(const tripoint &p) const
Definition: map.cpp:1797
Contains various information regarding the individual mapgen instance (generating a specific part of ...
Definition: mapgendata.h:36
const oter_id & ter(const tripoint_abs_omt &p)
Returns the overmap terrain at the given OMT coordinates.
point sm_to_omt_copy(const point &p)
static constexpr int MON_RADIUS
Definition: mapgen.cpp:99
void apply_function(const string_id< map_extra > &id, map &m, const tripoint &abs_sub)
t_regional_settings_map region_settings_map
Definition: overmap.cpp:186
mtype_id name
Definition: mongroup.h:53
unsigned int chance
weighted_int_list< std::string > values
const std::string & get_extras() const
Definition: omdata.h:237
const overmap_static_spawns & get_static_spawns() const
Definition: omdata.h:245
int get_mondensity() const
Definition: omdata.h:241

References abs_sub, add_spawn(), MapExtras::apply_function(), map_extras::chance, dbg, debugmsg, draw_map(), g, oter_t::get_extras(), oter_t::get_mondensity(), get_nonant(), oter_t::get_static_spawns(), MonsterGroupManager::GetResultFromGroup(), getsubmap(), Info, MonsterGroupManager::is_animal(), MON_RADIUS, my_MAPSIZE, MonsterGroupResult::name, one_in(), overmap_buffer, MonsterGroupResult::pack_size, passable(), random_point(), region_settings_map, rng(), roll_remainder(), saven(), set_abs_sub(), setsubmap(), sm_to_omt_copy(), overmapbuffer::ter(), to_string(), map_extras::values, x_in_y(), and tripoint::z.

Referenced by farm_action(), defense_game::init_map(), loadn(), and editmap::mapgen_preview().

◆ generate_lightmap()

void map::generate_lightmap ( int  zlev)
protected

Definition at line 371 of file lightmap.cpp.

372{
373 auto &map_cache = get_cache( zlev );
374 auto &lm = map_cache.lm;
375 auto &sm = map_cache.sm;
376 auto &outside_cache = map_cache.outside_cache;
377 auto &prev_floor_cache = get_cache( clamp( zlev + 1, -OVERMAP_DEPTH, OVERMAP_DEPTH ) ).floor_cache;
378 bool top_floor = zlev == OVERMAP_DEPTH;
379 std::memset( lm, 0, sizeof( lm ) );
380 std::memset( sm, 0, sizeof( sm ) );
381
382 /* Bulk light sources wastefully cast rays into neighbors; a burning hospital can produce
383 significant slowdown, so for stuff like fire and lava:
384 * Step 1: Store the position and luminance in buffer via add_light_source, for efficient
385 checking of neighbors.
386 * Step 2: After everything else, iterate buffer and apply_light_source only in non-redundant
387 directions
388 * Step 3: ????
389 * Step 4: Profit!
390 */
391 auto &light_source_buffer = map_cache.light_source_buffer;
392 std::memset( light_source_buffer, 0, sizeof( light_source_buffer ) );
393
394 constexpr std::array<int, 4> dir_x = { { 0, -1, 1, 0 } }; // [0]
395 constexpr std::array<int, 4> dir_y = { { -1, 0, 0, 1 } }; // [1][X][2]
396 constexpr std::array<int, 4> dir_d = { { 90, 0, 180, 270 } }; // [3]
397 constexpr std::array<std::array<quadrant, 2>, 4> dir_quadrants = { {
402 }
403 };
404
405 const float natural_light = g->natural_light_level( zlev );
406
407 build_sunlight_cache( zlev );
408
410 for( npc &guy : g->all_npcs() ) {
412 }
413
414 std::vector<std::pair<tripoint, float>> lm_override;
415 // Traverse the submaps in order
416 for( int smx = 0; smx < my_MAPSIZE; ++smx ) {
417 for( int smy = 0; smy < my_MAPSIZE; ++smy ) {
418 const auto cur_submap = get_submap_at_grid( { smx, smy, zlev } );
419
420 for( int sx = 0; sx < SEEX; ++sx ) {
421 for( int sy = 0; sy < SEEY; ++sy ) {
422 const int x = sx + smx * SEEX;
423 const int y = sy + smy * SEEY;
424 const tripoint p( x, y, zlev );
425 // Project light into any openings into buildings.
426 if( !outside_cache[p.x][p.y] || ( !top_floor && prev_floor_cache[p.x][p.y] ) ) {
427 // Apply light sources for external/internal divide
428 for( int i = 0; i < 4; ++i ) {
429 point neighbour = p.xy() + point( dir_x[i], dir_y[i] );
430 if( lightmap_boundaries.contains( neighbour )
431 && outside_cache[neighbour.x][neighbour.y] &&
432 ( top_floor || !prev_floor_cache[neighbour.x][neighbour.y] )
433 ) {
434 const float source_light =
435 std::min( natural_light, lm[neighbour.x][neighbour.y].max() );
437 update_light_quadrants( lm[p.x][p.y], source_light, quadrant::default_ );
438 apply_directional_light( p, dir_d[i], source_light );
439 } else {
440 update_light_quadrants( lm[p.x][p.y], source_light, dir_quadrants[i][0] );
441 update_light_quadrants( lm[p.x][p.y], source_light, dir_quadrants[i][1] );
442 }
443 }
444 }
445 }
446
447 if( cur_submap->get_lum( { sx, sy } ) && has_items( p ) ) {
448 auto items = i_at( p );
449 add_light_from_items( p, items.begin(), items.end() );
450 }
451
452 const ter_id terrain = cur_submap->get_ter( { sx, sy } );
453 if( terrain->light_emitted > 0 ) {
454 add_light_source( p, terrain->light_emitted );
455 }
456 const furn_id furniture = cur_submap->get_furn( {sx, sy } );
457 if( furniture->light_emitted > 0 ) {
458 add_light_source( p, furniture->light_emitted );
459 }
460
461 for( auto &fld : cur_submap->get_field( { sx, sy } ) ) {
462 const field_entry *cur = &fld.second;
463 const int light_emitted = cur->light_emitted();
464 if( light_emitted > 0 ) {
465 add_light_source( p, light_emitted );
466 }
467 const float light_override = cur->local_light_override();
468 if( light_override >= 0.0 ) {
469 lm_override.push_back( std::pair<tripoint, float>( p, light_override ) );
470 }
471 }
472 }
473 }
474 }
475 }
476
477 for( monster &critter : g->all_monsters() ) {
478 if( critter.is_hallucination() ) {
479 continue;
480 }
481 const tripoint &mp = critter.pos();
482 if( inbounds( mp ) ) {
483 if( critter.has_effect( effect_onfire ) ) {
484 apply_light_source( mp, 8 );
485 }
486 // TODO: [lightmap] Attach natural light brightness to creatures
487 // TODO: [lightmap] Allow creatures to have light attacks (i.e.: eyebot)
488 // TODO: [lightmap] Allow creatures to have facing and arc lights
489 if( critter.type->luminance > 0 ) {
490 apply_light_source( mp, critter.type->luminance );
491 }
492 }
493 }
494
495 // Apply any vehicle light sources
496 VehicleList vehs = get_vehicles();
497 for( auto &vv : vehs ) {
498 vehicle *v = vv.v;
499
500 auto lights = v->lights( true );
501
502 float veh_luminance = 0.0;
503 float iteration = 1.0;
504
505 for( const auto pt : lights ) {
506 const auto &vp = pt->info();
507 if( vp.has_flag( VPFLAG_CONE_LIGHT ) ||
508 vp.has_flag( VPFLAG_WIDE_CONE_LIGHT ) ) {
509 veh_luminance += vp.bonus / iteration;
510 iteration = iteration * 1.1;
511 }
512 }
513
514 for( const auto pt : lights ) {
515 const auto &vp = pt->info();
516 tripoint src = v->global_part_pos3( *pt );
517
518 if( !inbounds( src ) ) {
519 continue;
520 }
521
522 if( vp.has_flag( VPFLAG_CONE_LIGHT ) ) {
523 if( veh_luminance > lit_level::LIT ) {
524 add_light_source( src, M_SQRT2 ); // Add a little surrounding light
525 apply_light_arc( src, v->face.dir() + pt->direction, veh_luminance,
526 45_degrees );
527 }
528
529 } else if( vp.has_flag( VPFLAG_WIDE_CONE_LIGHT ) ) {
530 if( veh_luminance > lit_level::LIT ) {
531 add_light_source( src, M_SQRT2 ); // Add a little surrounding light
532 apply_light_arc( src, v->face.dir() + pt->direction, veh_luminance,
533 90_degrees );
534 }
535
536 } else if( vp.has_flag( VPFLAG_HALF_CIRCLE_LIGHT ) ) {
537 add_light_source( src, M_SQRT2 ); // Add a little surrounding light
538 apply_light_arc( src, v->face.dir() + pt->direction, vp.bonus, 180_degrees );
539
540 } else if( vp.has_flag( VPFLAG_CIRCLE_LIGHT ) ) {
541 const bool odd_turn = calendar::once_every( 2_turns );
542 if( ( odd_turn && vp.has_flag( VPFLAG_ODDTURN ) ) ||
543 ( !odd_turn && vp.has_flag( VPFLAG_EVENTURN ) ) ||
544 ( !( vp.has_flag( VPFLAG_EVENTURN ) || vp.has_flag( VPFLAG_ODDTURN ) ) ) ) {
545
546 add_light_source( src, vp.bonus );
547 }
548
549 } else {
550 add_light_source( src, vp.bonus );
551 }
552 }
553
554 for( const vpart_reference &vp : v->get_all_parts() ) {
555 const size_t p = vp.part_index();
556 const tripoint pp = vp.pos();
557 if( !inbounds( pp ) ) {
558 continue;
559 }
560 if( vp.has_feature( VPFLAG_CARGO ) && !vp.has_feature( "COVERED" ) ) {
561 add_light_from_items( pp, v->get_items( static_cast<int>( p ) ).begin(),
562 v->get_items( static_cast<int>( p ) ).end() );
563 }
564 }
565 }
566
567 /* Now that we have position and intensity of all bulk light sources, apply_ them
568 This may seem like extra work, but take a 12x12 raging inferno:
569 unbuffered: (12^2)*(160*4) = apply_light_ray x 92160
570 buffered: (12*4)*(160) = apply_light_ray x 7680
571 */
572 const tripoint cache_start( 0, 0, zlev );
573 const tripoint cache_end( LIGHTMAP_CACHE_X, LIGHTMAP_CACHE_Y, zlev );
574 for( const tripoint &p : points_in_rectangle( cache_start, cache_end ) ) {
575 if( light_source_buffer[p.x][p.y] > 0.0 ) {
576 apply_light_source( p, light_source_buffer[p.x][p.y] );
577 }
578 }
579 for( const std::pair<tripoint, float> &elem : lm_override ) {
580 lm[elem.first.x][elem.first.y].fill( elem.second );
581 }
582}
float light_emitted() const
Definition: field.cpp:69
float local_light_override() const
Definition: field.cpp:74
float light_transparency(const tripoint &p) const
Definition: lightmap.cpp:631
void apply_directional_light(const tripoint &p, int direction, float luminance)
Definition: lightmap.cpp:1511
void build_sunlight_cache(int pzlev)
Definition: lightmap.cpp:220
void add_light_from_items(const tripoint &p, item_stack::iterator begin, item_stack::iterator end)
Definition: lightmap.cpp:63
void apply_character_light(Character &p)
Definition: lightmap.cpp:198
Definition: npc.h:781
units::angle dir() const
Definition: tileray.cpp:74
std::vector< vehicle_part * > lights(bool active=false)
Get all vehicle lights (excluding any that are destroyed)
Definition: vehicle.cpp:4642
vehicle_stack get_items(int part) const
Definition: vehicle.cpp:5468
bool once_every(const time_duration &event_frequency)
Predicate to handle rate-limiting.
Definition: calendar.cpp:490
@ VPFLAG_CONE_LIGHT
Definition: veh_type.h:35
@ VPFLAG_CIRCLE_LIGHT
Definition: veh_type.h:38
@ VPFLAG_CARGO
Definition: veh_type.h:62
@ VPFLAG_EVENTURN
Definition: veh_type.h:33
@ VPFLAG_WIDE_CONE_LIGHT
Definition: veh_type.h:36
@ VPFLAG_ODDTURN
Definition: veh_type.h:34
@ VPFLAG_HALF_CIRCLE_LIGHT
Definition: veh_type.h:37

References add_light_from_items(), add_light_source(), apply_character_light(), apply_directional_light(), apply_light_arc(), apply_light_source(), item_stack::begin(), build_sunlight_cache(), clamp(), default_, tileray::dir(), effect_onfire, item_stack::end(), vehicle::face, level_cache::floor_cache, furniture, g, vehicle::get_all_parts(), get_cache(), vehicle::get_items(), get_player_character(), get_submap_at_grid(), get_vehicles(), vehicle::global_part_pos3(), has_items(), i_at(), inbounds(), field_entry::light_emitted(), light_transparency(), LIGHT_TRANSPARENCY_SOLID, lightmap_boundaries, LIGHTMAP_CACHE_X, LIGHTMAP_CACHE_Y, vehicle::lights(), LIT, field_entry::local_light_override(), M_SQRT2, my_MAPSIZE, NE, NW, calendar::once_every(), OVERMAP_DEPTH, points_in_rectangle(), SE, SEEX, SEEY, coords::sm, SW, sx, sy, terrain, update_light_quadrants(), VPFLAG_CARGO, VPFLAG_CIRCLE_LIGHT, VPFLAG_CONE_LIGHT, VPFLAG_EVENTURN, VPFLAG_HALF_CIRCLE_LIGHT, VPFLAG_ODDTURN, VPFLAG_WIDE_CONE_LIGHT, point::x, tripoint::x, tripoint::xy(), point::y, and tripoint::y.

Referenced by build_map_cache().

◆ get_abs_sub()

◆ get_active_items_in_radius() [1/2]

std::list< item_location > map::get_active_items_in_radius ( const tripoint center,
int  radius 
) const

Definition at line 8619 of file map.cpp.

8621{
8623}
std::list< item_location > get_active_items_in_radius(const tripoint &center, int radius) const
Definition: map.cpp:8619

References center, get_active_items_in_radius(), and none.

Referenced by npc::find_corpse_to_pulp(), npc::find_dangerous_explosives(), and get_active_items_in_radius().

◆ get_active_items_in_radius() [2/2]

std::list< item_location > map::get_active_items_in_radius ( const tripoint center,
int  radius,
special_item_type  type 
) const

Definition at line 8625 of file map.cpp.

8627{
8628 std::list<item_location> result;
8629
8630 const point minp( center.xy() + point( -radius, -radius ) );
8631 const point maxp( center.xy() + point( radius, radius ) );
8632
8633 const point ming( std::max( minp.x / SEEX, 0 ),
8634 std::max( minp.y / SEEY, 0 ) );
8635 const point maxg( std::min( maxp.x / SEEX, my_MAPSIZE - 1 ),
8636 std::min( maxp.y / SEEY, my_MAPSIZE - 1 ) );
8637
8638 for( const tripoint &abs_submap_loc : submaps_with_active_items ) {
8639 const tripoint submap_loc{ -abs_sub.xy() + abs_submap_loc };
8640 if( submap_loc.x < ming.x || submap_loc.y < ming.y ||
8641 submap_loc.x > maxg.x || submap_loc.y > maxg.y ) {
8642 continue;
8643 }
8644 const point sm_offset( submap_loc.x * SEEX, submap_loc.y * SEEY );
8645
8646 submap *sm = get_submap_at_grid( submap_loc );
8647 std::vector<item_reference> items = type == special_item_type::none ? sm->active_items.get() :
8648 sm->active_items.get_special( type );
8649 for( const auto &elem : items ) {
8650 const tripoint pos( sm_offset + elem.location, submap_loc.z );
8651
8652 if( rl_dist( pos, center ) > radius ) {
8653 continue;
8654 }
8655
8656 if( elem.item_ref ) {
8657 result.emplace_back( map_cursor( pos ), elem.item_ref.get() );
8658 }
8659 }
8660 }
8661
8662 return result;
8663}

References abs_sub, center, get_submap_at_grid(), my_MAPSIZE, none, rl_dist(), SEEX, SEEY, coords::sm, submaps_with_active_items, type, point::x, tripoint::xy(), and point::y.

◆ get_cache()

◆ get_cache_ref()

◆ get_creatures_in_radius()

std::list< Creature * > map::get_creatures_in_radius ( const tripoint center,
size_t  radius,
size_t  radiusz = 0 
)

returns creatures in specified radius

Definition at line 8679 of file map.cpp.

8681{
8682 std::list<Creature *> creatures;
8683 for( const auto &loc : points_in_radius( center, radius, radiusz ) ) {
8684 Creature *tmp_critter = g->critter_at( loc );
8685 if( tmp_critter != nullptr ) {
8686 creatures.push_back( tmp_critter );
8687 }
8688
8689 }
8690 return creatures;
8691}

References center, g, and points_in_radius().

◆ get_dir_circle()

std::vector< tripoint > map::get_dir_circle ( const tripoint f,
const tripoint t 
) const

Calculate next search points surrounding the current position.

Points closer to the target come first. This method leads to straighter lines and prevents weird looking movements away from the target.

Definition at line 6552 of file map.cpp.

6553{
6554 std::vector<tripoint> circle;
6555 circle.resize( 8 );
6556
6557 // The line below can be crazy expensive - we only take the FIRST point of it
6558 const std::vector<tripoint> line = line_to( f, t, 0, 0 );
6559 const std::vector<tripoint> spiral = closest_points_first( f, 1 );
6560 const std::vector<int> pos_index {1, 2, 4, 6, 8, 7, 5, 3};
6561
6562 // All possible constellations (closest_points_first goes clockwise)
6563 // 753 531 312 124 246 468 687 875
6564 // 8 1 7 2 5 4 3 6 1 8 2 7 4 5 6 3
6565 // 642 864 786 578 357 135 213 421
6566
6567 size_t pos_offset = 0;
6568 for( size_t i = 1; i < spiral.size(); i++ ) {
6569 if( spiral[i] == line[0] ) {
6570 pos_offset = i - 1;
6571 break;
6572 }
6573 }
6574
6575 for( size_t i = 1; i < spiral.size(); i++ ) {
6576 if( pos_offset >= pos_index.size() ) {
6577 pos_offset = 0;
6578 }
6579
6580 circle[pos_index[pos_offset++] - 1] = spiral[i];
6581 }
6582
6583 return circle;
6584}
void circle(map *m, const ter_id &type, double x, double y, double rad)
Definition: mapgen.cpp:6495

References circle(), closest_points_first(), line(), and line_to().

Referenced by npc::move_to().

◆ get_field() [1/2]

field & map::get_field ( const tripoint p)
private

Definition at line 8455 of file map.cpp.

8456{
8457 return field_at( p );
8458}

References field_at().

◆ get_field() [2/2]

field_entry * map::get_field ( const tripoint p,
const field_type_id type 
)

◆ get_field_age()

time_duration map::get_field_age ( const tripoint p,
const field_type_id type 
) const

Get the age of a field entry (field_entry::age), if there is no field of that type, returns -1_turns.

Definition at line 5353 of file map.cpp.

5354{
5355 auto field_ptr = field_at( p ).find_field( type );
5356 return field_ptr == nullptr ? -1_turns : field_ptr->get_field_age();
5357}

References field_at(), field::find_field(), field_entry::get_field_age(), and type.

Referenced by game::grabbed_furn_move(), try_fuel_fire(), and game::walk_move().

◆ get_field_intensity()

int map::get_field_intensity ( const tripoint p,
const field_type_id type 
) const

Get the intensity of a field entry (field_entry::intensity), if there is no field of that type, returns 0.

Definition at line 5359 of file map.cpp.

5360{
5361 auto field_ptr = field_at( p ).find_field( type );
5362 return ( field_ptr == nullptr ? 0 : field_ptr->get_field_intensity() );
5363}

References field_at(), field::find_field(), and type.

Referenced by Character::base_comfort_value(), game::grabbed_furn_move(), is_flammable(), propagate_field(), fungal_effects::spread_fungus_one_tile(), and game::walk_move().

◆ get_furn_field_locations()

const std::vector< tripoint > & map::get_furn_field_locations ( ) const

Definition at line 7734 of file map.cpp.

7735{
7736 return field_furn_locs;
7737}

References field_furn_locs.

Referenced by game::do_turn().

◆ get_furn_transforms_into()

furn_id map::get_furn_transforms_into ( const tripoint p) const

Definition at line 1609 of file map.cpp.

1610{
1611 return furn( p ).obj().transforms_into.id();
1612}
furn_str_id transforms_into
Definition: mapdata.h:499

References furn(), string_id< T >::id(), int_id< T >::obj(), and furn_t::transforms_into.

◆ get_harvest()

const harvest_id & map::get_harvest ( const tripoint p) const

Returns the full harvest list, for spawning.

Definition at line 1561 of file map.cpp.

1562{
1563 const auto furn_here = furn( pos );
1564 if( furn_here->examine != iexamine::none ) {
1565 // Note: if furniture can be examined, the terrain can NOT (until furniture is removed)
1566 if( furn_here->has_flag( TFLAG_HARVESTED ) ) {
1567 return harvest_id::NULL_ID();
1568 }
1569
1570 return furn_here->get_harvest();
1571 }
1572
1573 const auto ter_here = ter( pos );
1574 if( ter_here->has_flag( TFLAG_HARVESTED ) ) {
1575 return harvest_id::NULL_ID();
1576 }
1577
1578 return ter_here->get_harvest();
1579}
static const string_id< harvest_list > & NULL_ID()
Returns a null id whose string_id<T>::is_null() must always return true.
@ TFLAG_HARVESTED
Definition: mapdata.h:303

References furn(), iexamine::none(), string_id< harvest_list >::NULL_ID(), wrapped_vehicle::pos, ter(), and TFLAG_HARVESTED.

Referenced by harvest_common(), and is_harvestable().

◆ get_harvest_names()

const std::set< std::string > & map::get_harvest_names ( const tripoint p) const

Returns names of the items that would be dropped.

Definition at line 1581 of file map.cpp.

1582{
1583 static const std::set<std::string> null_harvest_names = {};
1584 const auto furn_here = furn( pos );
1585 if( furn_here->examine != iexamine::none ) {
1586 if( furn_here->has_flag( TFLAG_HARVESTED ) ) {
1587 return null_harvest_names;
1588 }
1589
1590 return furn_here->get_harvest_names();
1591 }
1592
1593 const auto ter_here = ter( pos );
1594 if( ter_here->has_flag( TFLAG_HARVESTED ) ) {
1595 return null_harvest_names;
1596 }
1597
1598 return ter_here->get_harvest_names();
1599}

References furn(), iexamine::none(), wrapped_vehicle::pos, ter(), and TFLAG_HARVESTED.

Referenced by npc::find_item().

◆ get_known_connections()

uint8_t map::get_known_connections ( const tripoint p,
int  connect_group,
const std::map< tripoint, ter_id > &  override = {} 
) const

Definition at line 1507 of file map.cpp.

1509{
1510 auto &ch = access_cache( p.z );
1511 uint8_t val = 0;
1512 std::function<bool( const tripoint & )> is_memorized;
1513#ifdef TILES
1514 if( use_tiles ) {
1515 is_memorized =
1516 [&]( const tripoint & q ) {
1517 return !g->u.get_memorized_tile( getabs( q ) ).tile.empty();
1518 };
1519 } else {
1520#endif
1521 is_memorized =
1522 [&]( const tripoint & q ) {
1523 return g->u.get_memorized_symbol( getabs( q ) );
1524 };
1525#ifdef TILES
1526 }
1527#endif
1528
1529 const bool overridden = override.find( p ) != override.end();
1530 const bool is_transparent = ch.transparency_cache[p.x][p.y] > LIGHT_TRANSPARENCY_SOLID;
1531
1532 // populate connection information
1533 for( int i = 0; i < 4; ++i ) {
1534 tripoint neighbour = p + offsets[i];
1535 if( !inbounds( neighbour ) ) {
1536 continue;
1537 }
1538 const auto neighbour_override = override.find( neighbour );
1539 const bool neighbour_overridden = neighbour_override != override.end();
1540 // if there's some non-memory terrain to show at the neighboring tile
1541 const bool may_connect = neighbour_overridden ||
1542 get_visibility( ch.visibility_cache[neighbour.x][neighbour.y],
1544 // or if an actual center tile is transparent or next to a memorized tile
1545 ( !overridden && ( is_transparent || is_memorized( neighbour ) ) );
1546 if( may_connect ) {
1547 const ter_t &neighbour_terrain = neighbour_overridden ?
1548 neighbour_override->second.obj() : ter( neighbour ).obj();
1549 if( neighbour_terrain.connects_to( connect_group ) ) {
1550 val += 1 << i;
1551 }
1552 }
1553 }
1554
1555 return val;
1556}
bool use_tiles
Use tiles for display.
bool is_transparent(const tripoint &p) const
Returns whether the tile at p is transparent(you can look past it).
Definition: lightmap.cpp:626
level_cache & access_cache(int zlev)
Definition: map.cpp:8693
static constexpr std::array< point, 4 > offsets
Definition: point.h:371
bool connects_to(int test_connect_group) const
Definition: mapdata.h:431

References access_cache(), map_data_common_t::connects_to(), g, get_visibility(), get_visibility_variables_cache(), getabs(), inbounds(), is_transparent(), LIGHT_TRANSPARENCY_SOLID, int_id< T >::obj(), offsets, ter(), use_tiles, VIS_CLEAR, tripoint::x, tripoint::y, and tripoint::z.

Referenced by determine_wall_corner().

◆ get_neighbors()

std::array< std::pair< tripoint, maptile >, 8 > map::get_neighbors ( const tripoint p)
private

Definition at line 190 of file map_field.cpp.

191{
192 // Find out which edges are in the bubble
193 // Where possible, do just one bounds check for all the neighbors
194 const bool west = p.x > 0;
195 const bool north = p.y > 0;
196 const bool east = p.x < SEEX * my_MAPSIZE - 1;
197 const bool south = p.y < SEEY * my_MAPSIZE - 1;
198 return std::array< std::pair<tripoint, maptile>, 8 > { {
199 maptile_has_bounds( p + eight_horizontal_neighbors[0], west &&north ),
201 maptile_has_bounds( p + eight_horizontal_neighbors[2], east &&north ),
204 maptile_has_bounds( p + eight_horizontal_neighbors[5], west &&south ),
206 maptile_has_bounds( p + eight_horizontal_neighbors[7], east &&south ),
207 }
208 };
209}
std::pair< tripoint, maptile > maptile_has_bounds(const tripoint &p, bool bounds_checked)
Definition: map_field.cpp:180
static const std::array< tripoint, 8 > eight_horizontal_neighbors
Definition: point.h:389

References eight_horizontal_neighbors, maptile_has_bounds(), my_MAPSIZE, SEEX, SEEY, tripoint::x, and tripoint::y.

Referenced by process_fields_in_submap(), and spread_gas().

◆ get_nonant() [1/2]

size_t map::get_nonant ( const point gridp) const
inlineprotected

Definition at line 1881 of file map.h.

1881 {
1882 return get_nonant( { gridp, abs_sub.z } );
1883 }

References abs_sub, get_nonant(), and tripoint::z.

◆ get_nonant() [2/2]

size_t map::get_nonant ( const tripoint gridp) const
protected

Get the index of a submap pointer in the grid given by grid coordinates.

The grid coordinates must be valid: 0 <= x < my_MAPSIZE, same for y. Version with z-levels checks for z between -OVERMAP_DEPTH and OVERMAP_HEIGHT

Definition at line 8311 of file map.cpp.

8312{
8313 // There used to be a bounds check here
8314 // But this function is called a lot, so push it up if needed
8315 if( zlevels ) {
8316 const int indexz = gridp.z + OVERMAP_HEIGHT; // Can't be lower than 0
8317 return indexz + ( gridp.x + gridp.y * my_MAPSIZE ) * OVERMAP_LAYERS;
8318 } else {
8319 return gridp.x + gridp.y * my_MAPSIZE;
8320 }
8321}

References my_MAPSIZE, OVERMAP_HEIGHT, OVERMAP_LAYERS, tripoint::x, tripoint::y, tripoint::z, and zlevels.

Referenced by copy_grid(), fake_map::fake_map(), generate(), get_nonant(), get_submap_at_grid(), loadn(), and saven().

◆ get_pathfinding_cache()

pathfinding_cache & map::get_pathfinding_cache ( int  zlev) const
private

Definition at line 8744 of file map.cpp.

8745{
8746 return *pathfinding_caches[zlev + OVERMAP_DEPTH];
8747}

References OVERMAP_DEPTH, and pathfinding_caches.

Referenced by get_pathfinding_cache_ref(), set_pathfinding_cache_dirty(), and update_pathfinding_cache().

◆ get_pathfinding_cache_ref()

const pathfinding_cache & map::get_pathfinding_cache_ref ( int  zlev) const

Definition at line 8756 of file map.cpp.

8757{
8758 if( !inbounds_z( zlev ) ) {
8759 debugmsg( "Tried to get pathfinding cache for out of bounds z-level %d", zlev );
8761 }
8762 auto &cache = get_pathfinding_cache( zlev );
8763 if( cache.dirty ) {
8765 }
8766
8767 return cache;
8768}
void update_pathfinding_cache(int zlev) const
Definition: map.cpp:8770
bool inbounds_z(const int z) const
Definition: map.h:1669
pathfinding_cache & get_pathfinding_cache(int zlev) const
Definition: map.cpp:8744

References debugmsg, get_pathfinding_cache(), inbounds_z(), OVERMAP_DEPTH, pathfinding_caches, and update_pathfinding_cache().

Referenced by route(), and vertical_move_destination().

◆ get_radiation()

int map::get_radiation ( const tripoint p) const

Definition at line 4015 of file map.cpp.

4016{
4017 if( !inbounds( p ) ) {
4018 return 0;
4019 }
4020
4021 point l;
4022 submap *const current_submap = get_submap_at( p, l );
4023
4024 return current_submap->get_radiation( l );
4025}

References submap::get_radiation(), get_submap_at(), and inbounds().

Referenced by computer_session::action_geiger(), computer_session::action_irradiator(), check_art_charge_req(), editmap::draw_main_ui_overlay(), and rad_scorch().

◆ get_roof()

ter_id map::get_roof ( const tripoint p,
bool  allow_air 
) const
private

Definition at line 3091 of file map.cpp.

3092{
3093 // This function should not be called from the 2D mode
3094 // Just use t_dirt instead
3095 assert( zlevels );
3096
3097 if( p.z <= -OVERMAP_DEPTH ) {
3098 // Could be magma/"void" instead
3099 return t_rock_floor;
3100 }
3101
3102 const auto &ter_there = ter( p ).obj();
3103 const auto &roof = ter_there.roof;
3104 if( !roof ) {
3105 // No roof
3106 if( !allow_air ) {
3107 // TODO: Biomes? By setting? Forbid and treat as bug?
3108 if( p.z < 0 ) {
3109 return t_rock_floor_no_roof;
3110 }
3111
3112 return t_dirt;
3113 }
3114
3115 return t_open_air;
3116 }
3117
3118 ter_id new_ter = roof.id();
3119 if( new_ter == t_null ) {
3120 debugmsg( "map::get_new_floor: %d,%d,%d has invalid roof type %s",
3121 p.x, p.y, p.z, roof.c_str() );
3122 return t_dirt;
3123 }
3124
3125 if( p.z == -1 && new_ter == t_rock_floor ) {
3126 // HACK: A hack to work around not having a "solid earth" tile
3127 new_ter = t_dirt;
3128 }
3129
3130 return new_ter;
3131}
static const ter_str_id t_rock_floor_no_roof("t_rock_floor_no_roof")

References debugmsg, int_id< T >::id(), int_id< T >::obj(), OVERMAP_DEPTH, ter_t::roof, t_dirt, t_null, t_open_air, t_rock_floor, t_rock_floor_no_roof, ter(), tripoint::x, tripoint::y, tripoint::z, and zlevels.

Referenced by bash_ter_furn(), and bash_ter_success().

◆ get_signage()

std::string map::get_signage ( const tripoint p) const

Definition at line 3981 of file map.cpp.

3982{
3983 if( !inbounds( p ) ) {
3984 return "";
3985 }
3986
3987 point l;
3988 submap *const current_submap = get_submap_at( p, l );
3989
3990 return current_submap->get_signage( l );
3991}
std::string get_signage(const point &p) const
Definition: submap.cpp:126

References submap::get_signage(), get_submap_at(), and inbounds().

Referenced by game::extended_description(), game::place_player(), game::print_terrain_info(), and iexamine::sign().

◆ get_submap_at() [1/4]

submap * map::get_submap_at ( const point p) const
inlineprivate

Definition at line 1853 of file map.h.

1853 {
1854 return get_submap_at( tripoint( p, abs_sub.z ) );
1855 }

References abs_sub, get_submap_at(), and tripoint::z.

◆ get_submap_at() [2/4]

submap * map::get_submap_at ( const point p,
point offset_p 
) const
inlineprivate

Definition at line 1862 of file map.h.

1862 {
1863 return get_submap_at( { p, abs_sub.z }, offset_p );
1864 }

References abs_sub, get_submap_at(), and tripoint::z.

◆ get_submap_at() [3/4]

◆ get_submap_at() [4/4]

submap * map::get_submap_at ( const tripoint p,
point offset_p 
) const
private

Get the submap pointer containing the specified position within the reality bubble.

The same as other get_submap_at, (p) must be valid (inbounds). Also writes the position within the submap to offset_p

Definition at line 8299 of file map.cpp.

8300{
8301 offset_p.x = p.x % SEEX;
8302 offset_p.y = p.y % SEEY;
8303 return get_submap_at( p );
8304}

References get_submap_at(), SEEX, SEEY, point::x, tripoint::x, point::y, and tripoint::y.

◆ get_submap_at_grid() [1/2]

◆ get_submap_at_grid() [2/2]

submap * map::get_submap_at_grid ( const tripoint gridp) const
private

Definition at line 8306 of file map.cpp.

8307{
8308 return getsubmap( get_nonant( gridp ) );
8309}

References get_nonant(), and getsubmap().

◆ get_submaps_with_active_items()

const std::set< tripoint > & map::get_submaps_with_active_items ( ) const
inline

Definition at line 2054 of file map.h.

2054 {
2056 }

References submaps_with_active_items.

◆ get_temperature()

int map::get_temperature ( const tripoint p) const

Definition at line 4052 of file map.cpp.

4053{
4054 if( !inbounds( p ) ) {
4055 return 0;
4056 }
4057
4058 return get_submap_at( p )->get_temperature();
4059}
int get_temperature() const
Definition: submap.h:194

References get_submap_at(), submap::get_temperature(), and inbounds().

◆ get_ter_transforms_into()

ter_id map::get_ter_transforms_into ( const tripoint p) const

Definition at line 1604 of file map.cpp.

1605{
1606 return ter( p ).obj().transforms_into.id();
1607}
ter_str_id transforms_into
Definition: mapdata.h:466

References string_id< T >::id(), int_id< T >::obj(), ter(), and ter_t::transforms_into.

Referenced by iexamine::harvest_ter(), iexamine::harvest_ter_nectar(), and iexamine::tree_hickory().

◆ get_vehicle_zones()

std::vector< zone_data * > map::get_vehicle_zones ( int  zlev)

Definition at line 936 of file map.cpp.

937{
938 std::vector<zone_data *> veh_zones;
939 bool rebuild = false;
940 for( auto veh : get_cache( zlev ).zone_vehicles ) {
941 if( veh->refresh_zones() ) {
942 rebuild = true;
943 }
944 for( auto &zone : veh->loot_zones ) {
945 veh_zones.emplace_back( &zone.second );
946 }
947 }
948 if( rebuild ) {
950 }
951 return veh_zones;
952}
static zone_manager & get_manager()
Definition: clzones.cpp:126
void cache_vzones()
Definition: clzones.cpp:624

References zone_manager::cache_vzones(), get_cache(), and zone_manager::get_manager().

Referenced by zone_manager::cache_vzones(), zone_manager::get_bottom_zone(), zone_manager::get_zone_at(), and zone_manager::get_zones().

◆ get_vehicles() [1/2]

◆ get_vehicles() [2/2]

VehicleList map::get_vehicles ( const tripoint start,
const tripoint end 
)

Definition at line 977 of file map.cpp.

978{
979 const int chunk_sx = std::max( 0, ( start.x / SEEX ) - 1 );
980 const int chunk_ex = std::min( my_MAPSIZE - 1, ( end.x / SEEX ) + 1 );
981 const int chunk_sy = std::max( 0, ( start.y / SEEY ) - 1 );
982 const int chunk_ey = std::min( my_MAPSIZE - 1, ( end.y / SEEY ) + 1 );
983 const int chunk_sz = start.z;
984 const int chunk_ez = end.z;
985 VehicleList vehs;
986
987 for( int cx = chunk_sx; cx <= chunk_ex; ++cx ) {
988 for( int cy = chunk_sy; cy <= chunk_ey; ++cy ) {
989 for( int cz = chunk_sz; cz <= chunk_ez; ++cz ) {
990 submap *current_submap = get_submap_at_grid( { cx, cy, cz } );
991 for( const auto &elem : current_submap->vehicles ) {
992 // Ensure the vehicle z-position is correct
993 elem->sm_pos.z = cz;
995 w.v = elem.get();
996 w.pos = w.v->global_pos3();
997 vehs.push_back( w );
998 }
999 }
1000 }
1001 }
1002
1003 return vehs;
1004}
tripoint pos
Definition: map.h:81
vehicle * v
Definition: map.h:82

References get_submap_at_grid(), vehicle::global_pos3(), my_MAPSIZE, wrapped_vehicle::pos, SEEX, SEEY, wrapped_vehicle::v, submap::vehicles, tripoint::x, tripoint::y, and tripoint::z.

◆ get_visibility()

visibility_type map::get_visibility ( lit_level  ll,
const visibility_variables cache 
) const

Definition at line 5642 of file map.cpp.

5644{
5645 switch( ll ) {
5646 case lit_level::DARK:
5647 // can't see this square at all
5648 if( cache.u_is_boomered ) {
5649 return VIS_BOOMER_DARK;
5650 } else {
5651 return VIS_DARK;
5652 }
5654 // can only tell that this square is bright
5655 if( cache.u_is_boomered ) {
5656 return VIS_BOOMER;
5657 } else {
5658 return VIS_LIT;
5659 }
5660
5661 case lit_level::LOW:
5662 // low light, square visible in monochrome
5663 case lit_level::LIT:
5664 // normal light
5665 case lit_level::BRIGHT:
5666 // bright light
5667 return VIS_CLEAR;
5668 case lit_level::BLANK:
5670 return VIS_HIDDEN;
5671 }
5672 return VIS_HIDDEN;
5673}
bool u_is_boomered
Definition: map.h:124

References BLANK, BRIGHT, BRIGHT_ONLY, DARK, LIT, LOW, MEMORIZED, visibility_variables::u_is_boomered, VIS_BOOMER, VIS_BOOMER_DARK, VIS_CLEAR, VIS_DARK, VIS_HIDDEN, and VIS_LIT.

Referenced by draw(), game::draw_look_around_cursor(), generate_weather_anim_frame(), get_known_connections(), and game::print_all_tile_info().

◆ get_visibility_variables_cache()

const visibility_variables & map::get_visibility_variables_cache ( ) const

Definition at line 5637 of file map.cpp.

5638{
5640}
visibility_variables visibility_variables_cache
Definition: map.h:2033

References visibility_variables_cache.

Referenced by draw(), generate_weather_anim_frame(), get_known_connections(), game::look_around(), live_view::show(), and editmap::update_view_with_help().

◆ get_wind_blockers()

std::tuple< maptile, maptile, maptile > map::get_wind_blockers ( const int &  winddirection,
const tripoint pos 
)

Definition at line 1894 of file map_field.cpp.

1896{
1897 static const std::array<std::pair<int, std::tuple< point, point, point >>, 9> outputs = {{
1898 { 330, std::make_tuple( point_east, point_north_east, point_south_east ) },
1899 { 301, std::make_tuple( point_south_east, point_east, point_south ) },
1900 { 240, std::make_tuple( point_south, point_south_west, point_south_east ) },
1901 { 211, std::make_tuple( point_south_west, point_west, point_south ) },
1902 { 150, std::make_tuple( point_west, point_north_west, point_south_west ) },
1903 { 121, std::make_tuple( point_north_west, point_north, point_west ) },
1904 { 60, std::make_tuple( point_north, point_north_west, point_north_east ) },
1905 { 31, std::make_tuple( point_north_east, point_east, point_north ) },
1906 { 0, std::make_tuple( point_east, point_north_east, point_south_east ) }
1907 }
1908 };
1909
1910 tripoint removepoint;
1911 tripoint removepoint2;
1912 tripoint removepoint3;
1913 for( const std::pair<int, std::tuple< point, point, point >> &val : outputs ) {
1914 if( winddirection >= val.first ) {
1915 removepoint = pos + std::get<0>( val.second );
1916 removepoint2 = pos + std::get<1>( val.second );
1917 removepoint3 = pos + std::get<2>( val.second );
1918 break;
1919 }
1920 }
1921
1922 const maptile remove_tile = maptile_at( removepoint );
1923 const maptile remove_tile2 = maptile_at( removepoint2 );
1924 const maptile remove_tile3 = maptile_at( removepoint3 );
1925 return std::make_tuple( remove_tile, remove_tile2, remove_tile3 );
1926}

References maptile_at(), point_east, point_north, point_north_east, point_north_west, point_south, point_south_east, point_south_west, and point_west.

Referenced by spread_gas().

◆ getabs() [1/2]

point map::getabs ( const point p) const
inline

Definition at line 1654 of file map.h.

1654 {
1655 return getabs( tripoint( p, abs_sub.z ) ).xy();
1656 }

References abs_sub, getabs(), tripoint::xy(), and tripoint::z.

◆ getabs() [2/2]

tripoint map::getabs ( const tripoint p) const

Translates local (to this map) coordinates of a square to global absolute coordinates.

Coordinates is in the system that is used by the ter/furn/i_at functions. Output is in the same scale, but in global system.

Definition at line 8249 of file map.cpp.

8250{
8251 return sm_to_ms_copy( abs_sub.xy() ) + p;
8252}

References abs_sub, sm_to_ms_copy(), and tripoint::xy().

Referenced by activity_on_turn_move_loot(), add_basecamp_storage_to_loot_zone_list(), add_item(), Character::add_known_trap(), jmapgen_zone::apply(), are_requirements_nearby(), game::autopilot_vehicles(), talk_function::basecamp_mission(), bash_ter_furn(), iexamine::bulletin_board(), butcher_corpse_activity(), can_do_activity_there(), iexamine::cardreader(), vehicle::autodrive_controller::check_drivable(), game::check_near_zone(), game::check_zone(), chop_plank_activity(), chop_tree_activity(), complete_construction(), construction_activity(), game::control_vehicle(), activity_handlers::repair_activity_hack::anonymous_namespace{activity_handlers.cpp}::discharge_real_power_source(), npc::do_pulp(), construct::done_digormine_stair(), construct::done_mine_upstair(), draw_maptile(), editmap::edit_mapgen(), iexamine::elevator(), fill_funnels(), find_auto_consume(), game::find_or_make_stairs(), find_refuel_spot_zone(), find_valid_teleporters_omt(), activity_handlers::forage_finish(), inventory::form_from_map(), furn_set(), generic_multi_activity_check_requirement(), generic_multi_activity_do(), generic_multi_activity_handler(), generic_multi_activity_locations(), activity_handlers::repair_activity_hack::anonymous_namespace{activity_handlers.cpp}::get_fake_tool(), get_known_connections(), zone_manager::get_point_set_loot(), getabs(), Character::global_square_location(), npc::go_to_omt_destination(), good_fishing_spot(), game::grabbed_furn_move(), grow_plant(), npc::guard_current_pos(), Character::knows_trap(), mine_activity(), npc::move(), perform_zone_activity_turn(), place_construction(), game::place_player(), basecamp::place_results(), game::place_vehicle_nearby(), iexamine::plant_seed(), game::pre_print_all_tile_info(), sounds::process_sounds(), plot_options::query_seed(), npc::reach_omt_destination(), remove_submap_turrets(), requirements_map(), zone_manager::rotate_zones(), conditional_t< T >::set_is_outside(), target_ui::set_last_target(), shoot(), iexamine::shrub_wildveggies(), smash(), spawn_monsters_submap_group(), debug_menu::spawn_nested_mapgen(), spread_gas(), ter_set(), tidy_activity(), vehicle::total_wind_epower_w(), translate_radius(), iexamine::trap(), update_suspension_cache(), use_charges_from_furn(), iexamine::use_furn_fake_item(), basecamp::validate_sort_points(), vehicle_activity(), vertical_move_destination(), iuse::weather_tool(), npc::worker_downtime(), and game::zones_manager().

◆ getlocal() [1/2]

point map::getlocal ( const point p) const
inline

Definition at line 1661 of file map.h.

1661 {
1662 return getlocal( tripoint( p, abs_sub.z ) ).xy();
1663 }

References abs_sub, getlocal(), tripoint::xy(), and tripoint::z.

◆ getlocal() [2/2]

tripoint map::getlocal ( const tripoint p) const

Inverse of getabs.

Definition at line 8254 of file map.cpp.

8255{
8256 return p - sm_to_ms_copy( abs_sub.xy() );
8257}

References abs_sub, sm_to_ms_copy(), and tripoint::xy().

Referenced by basecamp::abandon_camp(), activity_on_turn_move_loot(), zone_manager::add(), add_basecamp_storage_to_loot_zone_list(), grid_furn_transform_queue::apply(), talk_function::basecamp_mission(), activity_handlers::build_do_turn(), can_do_activity_there(), Character::check_outbounds_activity(), activity_handlers::chop_logs_finish(), activity_handlers::chop_planks_finish(), activity_handlers::chop_tree_do_turn(), activity_handlers::chop_tree_finish(), activity_handlers::churn_finish(), cleanup_tiles(), complete_construction(), veh_interact::complete_vehicle(), vehicle::autodrive_controller::compute_obstacles(), basecamp_action_components::consume_components(), deregister_vehicle_zone(), basecamp::distribute_food(), construct::done_digormine_stair(), construct::done_mine_upstair(), editmap::edit_mapgen(), npc::execute_action(), fetch_activity(), find_auto_consume(), game::find_or_make_stairs(), find_refuel_spot_zone(), activity_handlers::forage_finish(), basecamp::form_crafting_inventory(), inventory::form_from_zone(), generic_multi_activity_check_requirement(), generic_multi_activity_handler(), generic_multi_activity_locations(), zone_manager::get_point_set_loot(), getlocal(), npc::go_to_omt_destination(), npc::good_escape_direction(), Character::has_destination_activity(), activity_handlers::jackhammer_do_turn(), activity_handlers::jackhammer_finish(), activity_handlers::milk_finish(), npc::move(), npc::move_to(), map_cursor::operator tripoint(), perform_zone_activity_turn(), activity_handlers::pickaxe_do_turn(), activity_handlers::pickaxe_finish(), teleporter_list::place_avatar_overmap(), basecamp::place_results(), game::place_vehicle_nearby(), activity_handlers::plant_seed_finish(), vehicle_part::properties_to_item(), activity_handlers::pulp_do_turn(), plot_options::query_seed(), npc::reach_omt_destination(), target_ui::recalc_aim_turning_penalty(), npc::regen_ai_cache(), requirements_map(), zone_manager::revert_vzones(), rotate(), zone_manager::rotate_zones(), activity_handlers::shear_finish(), debug_menu::spawn_nested_mapgen(), tidy_activity(), activity_handlers::travel_do_turn(), target_ui::try_reacquire_target(), update_suspension_cache(), basecamp::validate_sort_points(), activity_handlers::vehicle_finish(), vertical_move_destination(), npc::worker_downtime(), and game::zones_manager().

◆ getmapsize()

int map::getmapsize ( ) const
inline

Definition at line 1678 of file map.h.

1678 {
1679 return my_MAPSIZE;
1680 }

References my_MAPSIZE.

Referenced by distribution_grid_tracker::load(), editmap::mapgen_preview(), and points_in_range().

◆ getsubmap()

submap * map::getsubmap ( size_t  grididx) const
private

Get the submap pointer with given index in grid, the index must be valid!

Definition at line 8269 of file map.cpp.

8270{
8271 if( grididx >= grid.size() ) {
8272 debugmsg( "Tried to access invalid grid index %d. Grid size: %d", grididx, grid.size() );
8273 return nullptr;
8274 }
8275 return grid[grididx];
8276}

References debugmsg, and grid.

Referenced by generate(), get_submap_at_grid(), and saven().

◆ graffiti_at()

const std::string & map::graffiti_at ( const tripoint p) const

Definition at line 7810 of file map.cpp.

7811{
7812 if( !inbounds( p ) ) {
7813 static const std::string empty_string;
7814 return empty_string;
7815 }
7816 point l;
7817 submap *const current_submap = get_submap_at( p, l );
7818 return current_submap->get_graffiti( l );
7819}
const std::string & get_graffiti(const point &p) const
Definition: submap.cpp:88

References submap::get_graffiti(), get_submap_at(), and inbounds().

Referenced by advanced_inv_area::init(), game::place_player(), game::print_graffiti_info(), and editmap::update_view_with_help().

◆ grow_plant()

void map::grow_plant ( const tripoint p)
protected

Try to grow a harvestable plant to the next stage(s).

Definition at line 7139 of file map.cpp.

7140{
7141 const auto &furn = this->furn( p ).obj();
7142 if( !furn.has_flag( "PLANT" ) ) {
7143 return;
7144 }
7145 // Can't use item_stack::only_item() since there might be fertilizer
7146 map_stack items = i_at( p );
7147 map_stack::iterator seed = std::find_if( items.begin(), items.end(), []( const item & it ) {
7148 return it.is_seed();
7149 } );
7150
7151 if( seed == items.end() ) {
7152 // No seed there anymore, we don't know what kind of plant it was.
7153 // TODO: Fix point types
7154 const oter_id ot = overmap_buffer.ter( project_to<coords::omt>( tripoint_abs_ms( getabs( p ) ) ) );
7155 dbg( DL::Error ) << "a planted item at " << p
7156 << " (within overmap terrain " << ot.id().str() << ") has no seed data";
7157 i_clear( p );
7158 furn_set( p, f_null );
7159 return;
7160 }
7161 const time_duration plantEpoch = seed->get_plant_epoch();
7162 if( seed->age() >= plantEpoch * furn.plant->growth_multiplier &&
7163 !furn.has_flag( "GROWTH_HARVEST" ) ) {
7164 if( seed->age() < plantEpoch * 2 ) {
7165 if( has_flag_furn( "GROWTH_SEEDLING", p ) ) {
7166 return;
7167 }
7168
7169 // Remove fertilizer if any
7170 map_stack::iterator fertilizer = std::find_if( items.begin(), items.end(), []( const item & it ) {
7171 return it.has_flag( "FERTILIZER" );
7172 } );
7173 if( fertilizer != items.end() ) {
7174 items.erase( fertilizer );
7175 }
7176
7177 rotten_item_spawn( *seed, p );
7178 furn_set( p, furn_str_id( furn.plant->transform ) );
7179 } else if( seed->age() < plantEpoch * 3 * furn.plant->growth_multiplier ) {
7180 if( has_flag_furn( "GROWTH_MATURE", p ) ) {
7181 return;
7182 }
7183
7184 // Remove fertilizer if any
7185 map_stack::iterator fertilizer = std::find_if( items.begin(), items.end(), []( const item & it ) {
7186 return it.has_flag( "FERTILIZER" );
7187 } );
7188 if( fertilizer != items.end() ) {
7189 items.erase( fertilizer );
7190 }
7191
7192 rotten_item_spawn( *seed, p );
7193 //You've skipped the seedling stage so roll monsters twice
7194 if( !has_flag_furn( "GROWTH_SEEDLING", p ) ) {
7195 rotten_item_spawn( *seed, p );
7196 }
7197 furn_set( p, furn_str_id( furn.plant->transform ) );
7198 } else {
7199 //You've skipped two stages so roll monsters two times
7200 if( has_flag_furn( "GROWTH_SEEDLING", p ) ) {
7201 rotten_item_spawn( *seed, p );
7202 rotten_item_spawn( *seed, p );
7203 //One stage change
7204 } else if( has_flag_furn( "GROWTH_MATURE", p ) ) {
7205 rotten_item_spawn( *seed, p );
7206 //Goes from seed to harvest in one check
7207 } else {
7208 rotten_item_spawn( *seed, p );
7209 rotten_item_spawn( *seed, p );
7210 rotten_item_spawn( *seed, p );
7211 }
7212 furn_set( p, furn_str_id( furn.plant->transform ) );
7213 }
7214 }
7215}
iterator erase(const_iterator it) override
Definition: map.cpp:150
void rotten_item_spawn(const item &item, const tripoint &p)
Checks to see if the item that is rotting away generates a creature when it does.
Definition: map.cpp:7091
string_id< furn_t > furn_str_id
Definition: type_id.h:65

References item_stack::begin(), dbg, item_stack::end(), map_stack::erase(), Error, f_null, furn(), furn_set(), getabs(), has_flag_furn(), i_at(), i_clear(), int_id< T >::id(), int_id< T >::obj(), overmap_buffer, rotten_item_spawn(), iuse::seed(), string_id< T >::str(), and overmapbuffer::ter().

Referenced by actualize().

◆ has_adjacent_furniture_with()

bool map::has_adjacent_furniture_with ( const tripoint p,
const std::function< bool(const furn_t &)> &  filter 
)

Returns true if there is furniture for which filter returns true in a 1 tile radius of p.

Pass return_true<furn_t> to detect all adjacent furniture.

Parameters
pthe location to check at
filterwhat to filter the furniture by.

Definition at line 2738 of file map.cpp.

2740{
2741 for( const tripoint &adj : points_in_radius( p, 1 ) ) {
2742 if( has_furn( adj ) && filter( furn( adj ).obj() ) ) {
2743 return true;
2744 }
2745 }
2746
2747 return false;
2748}

References furn(), has_furn(), and points_in_radius().

◆ has_flag() [1/4]

bool map::has_flag ( const std::string &  flag,
const point p 
) const
inline

Definition at line 965 of file map.h.

965 {
966 return has_flag( flag, tripoint( p, abs_sub.z ) );
967 }

References abs_sub, has_flag(), and tripoint::z.

◆ has_flag() [2/4]

bool map::has_flag ( const std::string &  flag,
const tripoint p 
) const

Definition at line 2290 of file map.cpp.

2291{
2292 return has_flag_ter_or_furn( flag, p ); // Does bound checking
2293}

References has_flag_ter_or_furn().

Referenced by accessible_items(), Character::activate_bionic(), add_item(), add_item_or_charges(), npc::assess_danger(), bash(), bash_ter_furn(), bash_ter_success(), start_location::burn(), activity_handlers::burrow_finish(), game::butcher(), can_do_activity_there(), can_examine_at(), can_move_vertical_at(), can_put_items_ter_furn(), monster::can_reach_to(), iexamine::chainfence(), construct::check_empty(), vehicle::check_falling_or_floating(), construct::check_support(), chop_tree_activity(), climb_difficulty(), close_door(), doors::close_door(), collapse_at(), collapse_check(), consider_butchery(), iexamine::curtains(), displace_water(), dont_draw_lower_floor(), iexamine::door_peephole(), draw_lab(), drop_everything(), drop_or_embed_projectile(), iexamine::elevator(), explosion_handler::emp_blast(), game::examine(), computer_session::failure_shutdown(), features(), find_closest_stair(), game::find_or_make_stairs(), flammable_items_at(), game::fling_creature(), game::forced_door_closing(), generic_multi_activity_do(), game::get_dangerous_tile(), get_fire_fuel_string(), game::get_fishable_locations(), overmap_ui::get_overmap_path_to(), game::grabbed_furn_move(), has_flag(), has_nearby_chair(), has_nearby_table(), haul(), hit_with_fire(), vehicle::interact_with(), is_divable(), game::is_empty(), is_flammable(), is_water_shallow_current(), game::knockback(), mine_activity(), mop_spills(), monster::move(), avatar_action::move(), npc::move_to(), move_vehicle(), game::moving_vehicle_dismount(), MapExtras::mx_minefield(), item::on_drop(), open(), open_door(), vehicle::part_collision(), activity_handlers::pickaxe_finish(), game::place_player(), game::print_fields_info(), game::print_items_info(), process_fields_in_submap(), propagate_field(), propagate_suspension_check(), avatar_action::ramp_move(), rate_location(), route(), area_expander::run(), Character::run_cost(), conditional_t< T >::set_is_outside(), vehicle::shift_zlevel(), shoot(), spawn_an_item(), spawn_items(), fungal_effects::spread_fungus(), fungal_effects::spread_fungus_one_tile(), monster::stumble(), avatar_action::swim(), game::update_stair_monsters(), editmap::update_view_with_help(), place_trap_actor::use(), deploy_tent_actor::use(), use_charges_from_furn(), game::use_computer(), game::vertical_move(), vertical_move_destination(), game::walk_move(), water_from(), and npc::worker_downtime().

◆ has_flag() [3/4]

bool map::has_flag ( ter_bitflags  flag,
const point p 
) const
inline

Definition at line 996 of file map.h.

996 {
997 return has_flag( flag, tripoint( p, abs_sub.z ) );
998 }

References abs_sub, has_flag(), and tripoint::z.

◆ has_flag() [4/4]

bool map::has_flag ( ter_bitflags  flag,
const tripoint p 
) const

Definition at line 2333 of file map.cpp.

2334{
2335 return has_flag_ter_or_furn( flag, p ); // Does bound checking
2336}

References has_flag_ter_or_furn().

◆ has_flag_furn() [1/4]

bool map::has_flag_furn ( const std::string &  flag,
const point p 
) const
inline

Definition at line 985 of file map.h.

985 {
986 return has_flag_furn( flag, tripoint( p, abs_sub.z ) );
987 }

References abs_sub, has_flag_furn(), and tripoint::z.

◆ has_flag_furn() [2/4]

◆ has_flag_furn() [3/4]

bool map::has_flag_furn ( ter_bitflags  flag,
const point p 
) const
inline

Definition at line 1006 of file map.h.

1006 {
1007 return has_flag_furn( flag, tripoint( p, abs_sub.z ) );
1008 }

References abs_sub, has_flag_furn(), and tripoint::z.

◆ has_flag_furn() [4/4]

bool map::has_flag_furn ( ter_bitflags  flag,
const tripoint p 
) const

Definition at line 2343 of file map.cpp.

2344{
2345 return furn( p ).obj().has_flag( flag );
2346}

References furn(), map_data_common_t::has_flag(), and int_id< T >::obj().

◆ has_flag_ter() [1/4]

bool map::has_flag_ter ( const std::string &  flag,
const point p 
) const
inline

Definition at line 980 of file map.h.

980 {
981 return has_flag_ter( flag, tripoint( p, abs_sub.z ) );
982 }

References abs_sub, has_flag_ter(), and tripoint::z.

◆ has_flag_ter() [2/4]

◆ has_flag_ter() [3/4]

bool map::has_flag_ter ( ter_bitflags  flag,
const point p 
) const
inline

Definition at line 1001 of file map.h.

1001 {
1002 return has_flag_ter( flag, tripoint( p, abs_sub.z ) );
1003 }

References abs_sub, has_flag_ter(), and tripoint::z.

◆ has_flag_ter() [4/4]

bool map::has_flag_ter ( ter_bitflags  flag,
const tripoint p 
) const

Definition at line 2338 of file map.cpp.

2339{
2340 return ter( p ).obj().has_flag( flag );
2341}

References map_data_common_t::has_flag(), int_id< T >::obj(), and ter().

◆ has_flag_ter_or_furn() [1/4]

bool map::has_flag_ter_or_furn ( const std::string &  flag,
const point p 
) const
inline

Definition at line 990 of file map.h.

990 {
991 return has_flag_ter_or_furn( flag, tripoint( p, abs_sub.z ) );
992 }

References abs_sub, has_flag_ter_or_furn(), and tripoint::z.

◆ has_flag_ter_or_furn() [2/4]

◆ has_flag_ter_or_furn() [3/4]

bool map::has_flag_ter_or_furn ( ter_bitflags  flag,
const point p 
) const
inline

Definition at line 1011 of file map.h.

1011 {
1012 return has_flag_ter_or_furn( flag, tripoint( p, abs_sub.z ) );
1013 }

References abs_sub, has_flag_ter_or_furn(), and tripoint::z.

◆ has_flag_ter_or_furn() [4/4]

bool map::has_flag_ter_or_furn ( ter_bitflags  flag,
const tripoint p 
) const

Definition at line 2348 of file map.cpp.

2349{
2350 if( !inbounds( p ) ) {
2351 return false;
2352 }
2353
2354 point l;
2355 submap *const current_submap = get_submap_at( p, l );
2356
2357 return current_submap && //FIXME: can be null during mapgen
2358 ( current_submap->get_ter( l ).obj().has_flag( flag ) ||
2359 current_submap->get_furn( l ).obj().has_flag( flag ) );
2360}

References submap::get_furn(), get_submap_at(), submap::get_ter(), map_data_common_t::has_flag(), inbounds(), and int_id< T >::obj().

◆ has_floor()

bool map::has_floor ( const tripoint p) const

◆ has_floor_or_support()

bool map::has_floor_or_support ( const tripoint p) const

Definition at line 2036 of file map.cpp.

2037{
2038 const tripoint below( p.xy(), p.z - 1 );
2039 return !valid_move( p, below, false, true );
2040}

References valid_move(), tripoint::xy(), and tripoint::z.

Referenced by monster::move(), game::print_terrain_info(), avatar_action::ramp_move(), reachable_flood_steps(), smash(), and game::vertical_move().

◆ has_furn() [1/2]

bool map::has_furn ( const point p) const
inline

Definition at line 850 of file map.h.

850 {
851 return has_furn( tripoint( p, abs_sub.z ) );
852 }

References abs_sub, has_furn(), and tripoint::z.

◆ has_furn() [2/2]

◆ has_graffiti_at()

bool map::has_graffiti_at ( const tripoint p) const

Definition at line 7821 of file map.cpp.

7822{
7823 if( !inbounds( p ) ) {
7824 return false;
7825 }
7826 point l;
7827 submap *const current_submap = get_submap_at( p, l );
7828 return current_submap->has_graffiti( l );
7829}
bool has_graffiti(const point &p) const
Definition: submap.cpp:83

References get_submap_at(), submap::has_graffiti(), and inbounds().

Referenced by editmap::draw_main_ui_overlay(), advanced_inv_area::init(), game::place_player(), game::print_graffiti_info(), and editmap::update_view_with_help().

◆ has_items()

bool map::has_items ( const tripoint p) const

Checks for existence of items.

Faster than i_at(p).empty

Definition at line 4752 of file map.cpp.

4753{
4754 if( !inbounds( p ) ) {
4755 return false;
4756 }
4757
4758 point l;
4759 submap *const current_submap = get_submap_at( p, l );
4760
4761 return !current_submap->get_items( l ).empty();
4762}

References submap::get_items(), get_submap_at(), and inbounds().

Referenced by Character::activate_bionic(), bash_items(), can_do_activity_there(), can_examine_at(), can_pickup_at(), drop_furniture(), drop_items(), flammable_items_at(), inventory::form_from_map(), generate_lightmap(), has_clear_path_to_pickup_items(), haul(), iuse::note_bionics(), npc::pick_up_item(), game::place_player(), sees_some_items(), and smash_items().

◆ has_nearby_chair()

bool map::has_nearby_chair ( const tripoint p,
int  radius = 1 
)

Check whether a chair or vehicle seat is nearby.

Definition at line 2777 of file map.cpp.

2778{
2779 for( const tripoint &pt : points_in_radius( p, radius ) ) {
2780 const optional_vpart_position vp = veh_at( pt );
2781 if( has_flag( "CAN_SIT", pt ) ) {
2782 return true;
2783 }
2784 if( vp && vp->vehicle().has_part( "SEAT" ) ) {
2785 return true;
2786 }
2787 }
2788 return false;
2789}

References has_flag(), points_in_radius(), and veh_at().

◆ has_nearby_fire()

bool map::has_nearby_fire ( const tripoint p,
int  radius = 1 
)

Definition at line 2750 of file map.cpp.

2751{
2752 for( const tripoint &pt : points_in_radius( p, radius ) ) {
2753 if( get_field( pt, fd_fire ) != nullptr ) {
2754 return true;
2755 }
2756 if( has_flag_ter_or_furn( "USABLE_FIRE", pt ) ) {
2757 return true;
2758 }
2759 }
2760 return false;
2761}

References fd_fire, get_field(), has_flag_ter_or_furn(), and points_in_radius().

Referenced by iexamine::fireplace(), and inventory::form_from_map().

◆ has_nearby_table()

bool map::has_nearby_table ( const tripoint p,
int  radius = 1 
)

Check whether a table/workbench/vehicle kitchen or other flat surface is nearby that could be used for crafting or eating.

Definition at line 2763 of file map.cpp.

2764{
2765 for( const tripoint &pt : points_in_radius( p, radius ) ) {
2766 const optional_vpart_position vp = veh_at( p );
2767 if( has_flag( "FLAT_SURF", pt ) ) {
2768 return true;
2769 }
2770 if( vp && ( vp->vehicle().has_part( "KITCHEN" ) || vp->vehicle().has_part( "FLAT_SURF" ) ) ) {
2771 return true;
2772 }
2773 }
2774 return false;
2775}

References has_flag(), points_in_radius(), and veh_at().

Referenced by can_do_activity_there(), and consider_butchery().

◆ has_zlevels()

◆ hit_with_acid()

bool map::hit_with_acid ( const tripoint p)

Definition at line 3811 of file map.cpp.

3812{
3813 if( passable( p ) ) {
3814 return false; // Didn't hit the tile!
3815 }
3816 const ter_id t = ter( p );
3817 if( t == t_wall_glass || t == t_wall_glass_alarm ||
3818 t == t_vat ) {
3819 ter_set( p, t_floor );
3820 } else if( t == t_door_c || t == t_door_locked || t == t_door_locked_peep ||
3821 t == t_door_locked_alarm ) {
3822 if( one_in( 3 ) ) {
3823 ter_set( p, t_door_b );
3824 }
3825 } else if( t == t_door_bar_c || t == t_door_bar_o || t == t_door_bar_locked || t == t_bars ||
3826 t == t_reb_cage ) {
3827 ter_set( p, t_floor );
3828 add_msg( m_warning, _( "The metal bars melt!" ) );
3829 } else if( t == t_door_b ) {
3830 if( one_in( 4 ) ) {
3831 ter_set( p, t_door_frame );
3832 } else {
3833 return false;
3834 }
3835 } else if( t == t_window || t == t_window_alarm || t == t_window_no_curtains ) {
3836 ter_set( p, t_window_empty );
3837 } else if( t == t_wax ) {
3838 ter_set( p, t_floor_wax );
3839 } else if( t == t_gas_pump || t == t_gas_pump_smashed ) {
3840 return false;
3841 } else if( t == t_card_science || t == t_card_military || t == t_card_industrial ) {
3843 }
3844 return true;
3845}
@ m_warning
Definition: enums.h:257
ter_id t_card_industrial
Definition: mapdata.cpp:722
ter_id t_floor_wax
Definition: mapdata.cpp:685
ter_id t_reb_cage
Definition: mapdata.cpp:654
ter_id t_card_military
Definition: mapdata.cpp:722
ter_id t_door_bar_locked
Definition: mapdata.cpp:663
ter_id t_window_alarm
Definition: mapdata.cpp:668
ter_id t_door_bar_o
Definition: mapdata.cpp:663
ter_id t_gas_pump
Definition: mapdata.cpp:698
ter_id t_wall_glass_alarm
Definition: mapdata.cpp:649
ter_id t_card_reader_broken
Definition: mapdata.cpp:722
ter_id t_gas_pump_smashed
Definition: mapdata.cpp:698
ter_id t_door_locked_peep
Definition: mapdata.cpp:657
ter_id t_door_bar_c
Definition: mapdata.cpp:663
ter_id t_door_frame
Definition: mapdata.cpp:658
ter_id t_vat
Definition: mapdata.cpp:710
ter_id t_window_no_curtains
Definition: mapdata.cpp:672
ter_id t_wax
Definition: mapdata.cpp:685
ter_id t_window_empty
Definition: mapdata.cpp:668
ter_id t_door_b
Definition: mapdata.cpp:656

References _, add_msg(), m_warning, one_in(), passable(), t_bars, t_card_industrial, t_card_military, t_card_reader_broken, t_card_science, t_door_b, t_door_bar_c, t_door_bar_locked, t_door_bar_o, t_door_c, t_door_frame, t_door_locked, t_door_locked_alarm, t_door_locked_peep, t_floor, t_floor_wax, t_gas_pump, t_gas_pump_smashed, t_reb_cage, t_vat, t_wall_glass, t_wall_glass_alarm, t_wax, t_window, t_window_alarm, t_window_empty, t_window_no_curtains, ter(), and ter_set().

◆ hit_with_fire()

bool map::hit_with_fire ( const tripoint p)

Definition at line 3848 of file map.cpp.

3849{
3850 if( passable( p ) ) {
3851 return false; // Didn't hit the tile!
3852 }
3853
3854 // non passable but flammable terrain, set it on fire
3855 if( has_flag( "FLAMMABLE", p ) || has_flag( "FLAMMABLE_ASH", p ) ) {
3856 add_field( p, fd_fire, 3 );
3857 }
3858 return true;
3859}

References add_field(), fd_fire, has_flag(), and passable().

Referenced by mattack::flame().

◆ hoist_submap_camp()

basecamp map::hoist_submap_camp ( const tripoint p)

Definition at line 5565 of file map.cpp.

5566{
5567 basecamp *pcamp = get_submap_at( p )->camp.get();
5568 return pcamp ? *pcamp : basecamp();
5569}
std::unique_ptr< basecamp > camp
Definition: submap.h:249

References submap::camp, and get_submap_at().

Referenced by game::validate_camps().

◆ i_at() [1/2]

map_stack map::i_at ( const point p)
inline

Definition at line 1237 of file map.h.

1237 {
1238 return i_at( tripoint( p, abs_sub.z ) );
1239 }

References abs_sub, i_at(), and tripoint::z.

◆ i_at() [2/2]

map_stack map::i_at ( const tripoint p)

Definition at line 4071 of file map.cpp.

4072{
4073 if( !inbounds( p ) ) {
4074 nulitems.clear();
4075 return map_stack{ &nulitems, p, this };
4076 }
4077
4078 point l;
4079 submap *const current_submap = get_submap_at( p, l );
4080
4081 return map_stack{ &current_submap->get_items( l ), p, this };
4082}
static cata::colony< item > nulitems
Definition: map.cpp:138

References submap::get_items(), get_submap_at(), inbounds(), and nulitems.

Referenced by computer_session::action_blood_anal(), computer_session::action_conveyor(), computer_session::action_data_anal(), computer_session::action_irradiator(), computer_session::action_list_bionics(), computer_session::action_sample(), Character::activate_bionic(), activity_on_turn_move_loot(), add_item_or_charges(), advanced_inventory_pane::add_items_from_area(), iexamine::aggie_plant(), apply_camp_ownership(), apply_faction_ownership(), iexamine::arcfurnace_empty(), iexamine::arcfurnace_full(), are_requirements_nearby(), iexamine::autoclave_full(), Character::base_comfort_value(), bash_furn_success(), bash_items(), board_up(), MapExtras::burned_ground_parser(), game::butcher(), butcher_corpse_activity(), can_butcher_at(), can_do_activity_there(), iexamine::can_fertilize(), advanced_inventory::change_square(), construct::check_empty(), chop_plank_activity(), doors::close_door(), complete_construction(), iuse::directional_antenna(), iexamine::dirtmound(), displace_items_except_one_liquid(), basecamp::distribute_food(), construct::done_grave(), drop_furniture(), drop_items(), editmap::edit_itm(), iexamine::elevator(), explosion_handler::emp_blast(), game::examine(), computer_session::failure_destroy_blood(), computer_session::failure_destroy_data(), farm_action(), iexamine::fertilize_plant(), fetch_activity(), talk_function::field_harvest(), fill_funnels(), activity_handlers::fill_liquid_do_turn(), find_auto_consume(), npc::find_corpse_to_pulp(), npc::find_item(), game::find_nearby_items(), flammable_items_at(), Character::floor_item_warmth(), game::forced_door_closing(), basecamp::form_crafting_inventory(), inventory::form_from_map(), free_volume(), fromPumpFuel(), furnname(), iexamine::fvat_empty(), iexamine::fvat_full(), iexamine::gaspump(), generate_lightmap(), generic_multi_activity_locations(), advanced_inv_area::get_container(), player::get_eligible_containers_for_crafting(), advanced_inv_area::get_item_count(), iexamine::getNearFilledGasTank(), game::grabbed_furn_move(), grow_plant(), liquid_handler::handle_liquid_from_ground(), iexamine::harvest_plant(), i_at(), i_rem(), Character::is_snuggling(), activity_handlers::jackhammer_finish(), iexamine::keg(), iexamine::kiln_empty(), iexamine::kiln_full(), advanced_inventory_pane::load_settings(), activity_handlers::longsalvage_finish(), talk_function::loot_building(), max_volume(), mill_activate(), iexamine::mill_finalize(), mop_spills(), advanced_inventory::move_all_items(), MapExtras::mx_supplydrop(), iuse::note_bionics(), om_harvest_itm(), iexamine::pedestal_temple(), iexamine::pedestal_wyrm(), tutorial_game::per_turn(), npc::pick_up_item_map(), activity_handlers::pickaxe_finish(), game::place_player(), iexamine::pour_into_keg(), firestarter_actor::prep_firestarter_use(), game::print_items_info(), process_fields_in_submap(), process_items_in_submap(), produce_sap(), activity_handlers::pulp_do_turn(), iexamine::quern_examine(), plot_options::query_seed(), iexamine::recycle_compactor(), iexamine::reload_furniture(), requirements_map(), rod_fish(), npc::see_item_say_smth(), serialize_liquid_source(), iexamine::shrub_wildveggies(), smash(), smash_items(), smoker_activate(), smoker_finalize(), iexamine::smoker_options(), fungal_effects::spread_fungus_one_tile(), game::start_hauling(), basecamp::start_relay_hide_site(), stored_volume(), tidy_activity(), tinder_at(), iexamine::toilet(), iexamine::toPumpFuel(), iexamine::tree_maple_tapped(), try_fuel_fire(), editmap::update_view_with_help(), use_amount_square(), use_charges(), use_charges_from_furn(), iexamine::use_furn_fake_item(), and iexamine::vending().

◆ i_clear() [1/2]

void map::i_clear ( const point p)
inline

Definition at line 1242 of file map.h.

1242 {
1243 i_clear( tripoint( p, abs_sub.z ) );
1244 }

References abs_sub, i_clear(), and tripoint::z.

◆ i_clear() [2/2]

void map::i_clear ( const tripoint p)

Definition at line 4109 of file map.cpp.

4110{
4111 point l;
4112 submap *const current_submap = get_submap_at( p, l );
4113
4114 for( item &it : current_submap->get_items( l ) ) {
4115 // remove from the active items cache (if it isn't there does nothing)
4116 current_submap->active_items.remove( &it );
4117 }
4118 if( current_submap->active_items.empty() ) {
4119 submaps_with_active_items.erase( tripoint( abs_sub.x + p.x / SEEX, abs_sub.y + p.y / SEEY, p.z ) );
4120 }
4121
4122 current_submap->set_lum( l, 0 );
4123 current_submap->get_items( l ).clear();
4124}
void remove(const item *it)
Removes the item if it is in the cache.
void set_lum(const point &p, uint8_t luminance)
Definition: submap.h:125

References abs_sub, submap::active_items, active_item_cache::empty(), submap::get_items(), get_submap_at(), active_item_cache::remove(), SEEX, SEEY, submap::set_lum(), submaps_with_active_items, tripoint::x, tripoint::y, and tripoint::z.

Referenced by computer_session::action_conveyor(), iexamine::aggie_plant(), jmapgen_terrain::apply(), iexamine::arcfurnace_empty(), board_up(), doors::close_door(), MapExtras::dead_vegetation_parser(), basecamp::distribute_food(), draw_lab(), drop_furniture(), drop_items(), computer_session::failure_destroy_blood(), computer_session::failure_destroy_data(), farm_action(), iexamine::fertilize_plant(), talk_function::field_harvest(), iexamine::fvat_empty(), iexamine::fvat_full(), game::grabbed_furn_move(), grow_plant(), iexamine::harvest_plant(), i_clear(), iexamine::keg(), iexamine::kiln_empty(), mapgen_lake_shore(), om_harvest_itm(), iexamine::pedestal_temple(), iexamine::pedestal_wyrm(), rad_scorch(), and iexamine::tree_maple_tapped().

◆ i_rem() [1/4]

map_stack::iterator map::i_rem ( const point location,
map_stack::const_iterator  it 
)
inline

Definition at line 1248 of file map.h.

1248 {
1249 return i_rem( tripoint( location, abs_sub.z ), it );
1250 }
map_stack::iterator i_rem(const tripoint &p, map_stack::const_iterator it)
Definition: map.cpp:4084

References abs_sub, i_rem(), and tripoint::z.

◆ i_rem() [2/4]

void map::i_rem ( const point p,
item it 
)
inline

Definition at line 1252 of file map.h.

1252 {
1253 i_rem( tripoint( p, abs_sub.z ), it );
1254 }

References abs_sub, i_rem(), and tripoint::z.

◆ i_rem() [3/4]

void map::i_rem ( const tripoint p,
item it 
)

Definition at line 4100 of file map.cpp.

4101{
4102 map_stack map_items = i_at( p );
4104 if( iter != map_items.end() ) {
4105 i_rem( p, iter );
4106 }
4107}
iterator get_iterator_from_pointer(item *it)
Definition: item_stack.cpp:68

References item_stack::end(), item_stack::get_iterator_from_pointer(), i_at(), and i_rem().

◆ i_rem() [4/4]

map_stack::iterator map::i_rem ( const tripoint p,
map_stack::const_iterator  it 
)

Definition at line 4084 of file map.cpp.

4085{
4086 point l;
4087 submap *const current_submap = get_submap_at( p, l );
4088
4089 // remove from the active items cache (if it isn't there does nothing)
4090 current_submap->active_items.remove( &*it );
4091 if( current_submap->active_items.empty() ) {
4092 submaps_with_active_items.erase( tripoint( abs_sub.x + p.x / SEEX, abs_sub.y + p.y / SEEY, p.z ) );
4093 }
4094
4095 current_submap->update_lum_rem( l, *it );
4096
4097 return current_submap->get_items( l ).erase( it );
4098}
void update_lum_rem(const point &p, const item &i)
Definition: submap.h:137

References abs_sub, submap::active_items, active_item_cache::empty(), submap::get_items(), get_submap_at(), active_item_cache::remove(), SEEX, SEEY, submaps_with_active_items, submap::update_lum_rem(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by computer_session::action_irradiator(), chop_plank_activity(), iexamine::elevator(), map_stack::erase(), iexamine::fvat_full(), i_rem(), mill_activate(), move_item(), om_set_hide_site(), rcdrive(), remove_rotten_items(), game::save_cyborg(), smash_items(), and smoker_activate().

◆ impassable() [1/2]

bool map::impassable ( const point p) const
inline

Definition at line 628 of file map.h.

628 {
629 return !passable( p );
630 }

References passable().

◆ impassable() [2/2]

◆ impassable_ter_furn()

bool map::impassable_ter_furn ( const tripoint p) const

Definition at line 1825 of file map.cpp.

1826{
1827 return !passable_ter_furn( p );
1828}
bool passable_ter_furn(const tripoint &p) const
Definition: map.cpp:1830

References passable_ter_furn().

Referenced by vehicle::check_heli_ascend(), vehicle::check_heli_descend(), climb_difficulty(), displace_water(), and vehicle::part_collision().

◆ inbounds() [1/2]

bool map::inbounds ( const point p) const
inline

Definition at line 1665 of file map.h.

1665 {
1666 return inbounds( tripoint( p, 0 ) );
1667 }

References inbounds().

◆ inbounds() [2/2]

bool map::inbounds ( const tripoint p) const
virtual

Reimplemented in tinymap.

Definition at line 7744 of file map.cpp.

7745{
7746 static constexpr tripoint map_boundary_min( 0, 0, -OVERMAP_DEPTH );
7747 static constexpr tripoint map_boundary_max( MAPSIZE_Y, MAPSIZE_X, OVERMAP_HEIGHT + 1 );
7748
7749 static constexpr half_open_cuboid<tripoint> map_boundaries(
7750 map_boundary_min, map_boundary_max );
7751
7752 return map_boundaries.contains( p );
7753}

References half_open_cuboid< Tripoint, >::contains(), MAPSIZE_X, MAPSIZE_Y, OVERMAP_DEPTH, and OVERMAP_HEIGHT.

Referenced by vehicle::act_on_map(), activity_on_turn_move_loot(), add_field(), add_item(), MapgenRemovePartHandler::add_item_or_charges(), add_item_or_charges(), add_vehicle(), add_vehicle_to_cache(), adjust_radiation(), ambient_light_at(), apply_light_source(), bash(), bash_rating(), build_sunlight_cache(), Character::check_outbounds_activity(), clear_path(), clear_vehicle_cache(), clear_vehicle_point_from_cache(), computer_at(), delete_graffiti(), delete_signage(), displace_vehicle(), explosion_handler::do_blast(), do_vehicle_caching(), draw(), game::draw_look_around_cursor(), drawsq(), ranged::execute_shaped_attack(), field_at(), furn(), furn_set(), generate_lightmap(), generic_multi_activity_handler(), get_field(), get_known_connections(), get_radiation(), get_signage(), get_submap_at(), get_temperature(), graffiti_at(), has_flag_ter_or_furn(), has_floor(), has_graffiti_at(), has_items(), i_at(), inbounds(), is_bashable(), is_outside(), light_at(), game::load_npcs(), maptile_at(), map_stack::max_volume(), move_cost(), move_cost_ter_furn(), obscured_by_vehicle_rotation(), obstructed_by_vehicle_rotation(), activity_handlers::operation_do_turn(), partial_con_at(), partial_con_remove(), partial_con_set(), pl_line_of_sight(), pl_sees(), game::print_all_tile_info(), remove_field(), remove_trap(), route(), npc::saw_player_recently(), sees(), set_graffiti(), set_radiation(), set_seen_cache_dirty(), set_signage(), set_temperature(), set_transparency_cache_dirty(), game::shift_monsters(), shift_traps(), shoot(), spawn_items(), ter(), ter_set(), tr_at(), trap_set(), update_suspension_cache(), valid_move(), and veh_at().

◆ inbounds_z()

◆ invalidate_map_cache()

◆ invalidate_max_populated_zlev()

void map::invalidate_max_populated_zlev ( int  zlev)
private

Conditionally invalidates max_pupulated_zlev cache if the submap uniformity change occurs above current max_pupulated_zlev value.

Parameters
zlevzlevel where uniformity change occured

Definition at line 8942 of file map.cpp.

8943{
8944 if( max_populated_zlev && max_populated_zlev->second < zlev ) {
8945 max_populated_zlev->second = zlev;
8946 }
8947}

References max_populated_zlev.

Referenced by add_field(), add_item(), add_vehicle(), displace_vehicle(), furn_set(), shift_vehicle_z(), and ter_set().

◆ is_bashable() [1/2]

bool map::is_bashable ( const point p) const
inline

Definition at line 1018 of file map.h.

1018 {
1019 return is_bashable( tripoint( p, abs_sub.z ) );
1020 }

References abs_sub, is_bashable(), and tripoint::z.

◆ is_bashable() [2/2]

bool map::is_bashable ( const tripoint p,
bool  allow_floor = false 
) const

Returns true if there is a bashable vehicle part or the furn/terrain is bashable at p.

Definition at line 2411 of file map.cpp.

2412{
2413 if( !inbounds( p ) ) {
2414 dbg( DL::Warn ) << "Looking for out-of-bounds is_bashable at " << p;
2415 return false;
2416 }
2417
2418 if( veh_at( p ).obstacle_at_part() ) {
2419 return true;
2420 }
2421
2422 if( has_furn( p ) && furn( p ).obj().bash.str_max != -1 ) {
2423 return true;
2424 }
2425
2426 const auto &ter_bash = ter( p ).obj().bash;
2427 return ter_bash.str_max != -1 && ( !ter_bash.bash_below || allow_floor );
2428}

References bash(), map_data_common_t::bash, dbg, furn(), has_furn(), inbounds(), int_id< T >::obj(), map_bash_info::str_max, ter(), veh_at(), and Warn.

Referenced by MapExtras::burned_ground_parser(), activity_handlers::burrow_finish(), features(), game::fling_creature(), is_bashable(), npc::move_to(), MapExtras::mx_helicopter(), and activity_handlers::pickaxe_finish().

◆ is_bashable_furn() [1/2]

bool map::is_bashable_furn ( const point p) const
inline

Definition at line 1028 of file map.h.

1028 {
1029 return is_bashable_furn( tripoint( p, abs_sub.z ) );
1030 }
bool is_bashable_furn(const tripoint &p) const
Returns true if the furniture at p is bashable.
Definition: map.cpp:2436

References abs_sub, is_bashable_furn(), and tripoint::z.

◆ is_bashable_furn() [2/2]

bool map::is_bashable_furn ( const tripoint p) const

Returns true if the furniture at p is bashable.

Definition at line 2436 of file map.cpp.

2437{
2438 return has_furn( p ) && furn( p ).obj().bash.str_max != -1;
2439}

References map_data_common_t::bash, furn(), has_furn(), int_id< T >::obj(), and map_bash_info::str_max.

Referenced by is_bashable_furn(), is_bashable_ter_furn(), and make_rubble().

◆ is_bashable_ter() [1/2]

bool map::is_bashable_ter ( const point p) const
inline

Definition at line 1023 of file map.h.

1023 {
1024 return is_bashable_ter( tripoint( p, abs_sub.z ) );
1025 }
bool is_bashable_ter(const tripoint &p, bool allow_floor=false) const
Returns true if the terrain at p is bashable.
Definition: map.cpp:2430

References abs_sub, is_bashable_ter(), and tripoint::z.

◆ is_bashable_ter() [2/2]

bool map::is_bashable_ter ( const tripoint p,
bool  allow_floor = false 
) const

Returns true if the terrain at p is bashable.

Definition at line 2430 of file map.cpp.

2431{
2432 const auto &ter_bash = ter( p ).obj().bash;
2433 return ter_bash.str_max != -1 && ( !ter_bash.bash_below || allow_floor );
2434}

References map_data_common_t::bash, int_id< T >::obj(), map_bash_info::str_max, and ter().

Referenced by is_bashable_ter(), is_bashable_ter_furn(), and make_rubble().

◆ is_bashable_ter_furn() [1/2]

bool map::is_bashable_ter_furn ( const point p) const
inline

Definition at line 1033 of file map.h.

1033 {
1034 return is_bashable_ter_furn( tripoint( p, abs_sub.z ) );
1035 }
bool is_bashable_ter_furn(const tripoint &p, bool allow_floor=false) const
Returns true if the furniture or terrain at p is bashable.
Definition: map.cpp:2441

References abs_sub, is_bashable_ter_furn(), and tripoint::z.

◆ is_bashable_ter_furn() [2/2]

bool map::is_bashable_ter_furn ( const tripoint p,
bool  allow_floor = false 
) const

Returns true if the furniture or terrain at p is bashable.

Definition at line 2441 of file map.cpp.

2442{
2443 return is_bashable_furn( p ) || is_bashable_ter( p, allow_floor );
2444}

References is_bashable_furn(), and is_bashable_ter().

Referenced by is_bashable_ter_furn(), and vehicle::part_collision().

◆ is_cornerfloor()

bool map::is_cornerfloor ( const tripoint p) const

Definition at line 8879 of file map.cpp.

8880{
8881 if( impassable( p ) ) {
8882 return false;
8883 }
8884 std::set<tripoint> impassable_adjacent;
8885 for( const tripoint &pt : points_in_radius( p, 1 ) ) {
8886 if( impassable( pt ) ) {
8887 impassable_adjacent.insert( pt );
8888 }
8889 }
8890 if( !impassable_adjacent.empty() ) {
8891 //to check if a floor is a corner we first search if any of its diagonal adjacent points is impassable
8892 std::set< tripoint> diagonals = { p + tripoint_north_east, p + tripoint_north_west, p + tripoint_south_east, p + tripoint_south_west };
8893 for( const tripoint &impassable_diagonal : diagonals ) {
8894 if( impassable_adjacent.count( impassable_diagonal ) != 0 ) {
8895 //for every impassable diagonal found, we check if that diagonal terrain has at least two impassable neighbors that also neighbor point p
8896 int f = 0;
8897 for( const tripoint &l : points_in_radius( impassable_diagonal, 1 ) ) {
8898 if( impassable_adjacent.count( l ) != 0 ) {
8899 f++;
8900 }
8901 if( f > 2 ) {
8902 return true;
8903 }
8904 }
8905 }
8906 }
8907 }
8908 return false;
8909}
static constexpr tripoint tripoint_north_east
Definition: point.h:286
static constexpr tripoint tripoint_north_west
Definition: point.h:292
static constexpr tripoint tripoint_south_east
Definition: point.h:288
static constexpr tripoint tripoint_south_west
Definition: point.h:290

References impassable(), points_in_radius(), tripoint_north_east, tripoint_north_west, tripoint_south_east, and tripoint_south_west.

◆ is_divable() [1/2]

bool map::is_divable ( const point p) const
inline

Definition at line 1076 of file map.h.

1076 {
1077 return is_divable( tripoint( p, abs_sub.z ) );
1078 }
bool is_divable(const tripoint &p) const
Returns whether or not the terrain at the given location can be dived into (by monsters that can swim...
Definition: map.cpp:2555

References abs_sub, is_divable(), and tripoint::z.

◆ is_divable() [2/2]

bool map::is_divable ( const tripoint p) const

Returns whether or not the terrain at the given location can be dived into (by monsters that can swim or are aquatic or non-breathing).

Parameters
pThe coordinate to look at.
Returns
true if the terrain can be dived into; false if not.

Definition at line 2555 of file map.cpp.

2556{
2557 return has_flag( "SWIMMABLE", p ) && has_flag( TFLAG_DEEP_WATER, p );
2558}

References has_flag(), and TFLAG_DEEP_WATER.

Referenced by enchantment::is_active(), is_divable(), and Creature::sees().

◆ is_flammable()

bool map::is_flammable ( const tripoint p)

Returns true if there is a flammable item or field or the furn/terrain is flammable at p.

Definition at line 2639 of file map.cpp.

2640{
2641 if( flammable_items_at( p ) ) {
2642 return true;
2643 }
2644
2645 if( has_flag( "FLAMMABLE", p ) ) {
2646 return true;
2647 }
2648
2649 if( has_flag( "FLAMMABLE_ASH", p ) ) {
2650 return true;
2651 }
2652
2653 if( get_field_intensity( p, fd_web ) > 0 ) {
2654 return true;
2655 }
2656
2657 return false;
2658}
int get_field_intensity(const tripoint &p, const field_type_id &type) const
Get the intensity of a field entry (field_entry::intensity), if there is no field of that type,...
Definition: map.cpp:5359
bool flammable_items_at(const tripoint &p, int threshold=0)
Checks if there are any flammable items on the tile.
Definition: map.cpp:2622

References fd_web, flammable_items_at(), get_field_intensity(), and has_flag().

Referenced by Character::activate_bionic(), and activity_handlers::start_fire_do_turn().

◆ is_harvestable()

bool map::is_harvestable ( const tripoint pos) const

Returns true if point at pos is harvestable right now, with no extra tools.

Definition at line 1627 of file map.cpp.

1628{
1629 const auto &harvest_here = get_harvest( pos );
1630 return !harvest_here.is_null() && !harvest_here->empty();
1631}
const harvest_id & get_harvest(const tripoint &p) const
Returns the full harvest list, for spawning.
Definition: map.cpp:1561

References get_harvest(), and wrapped_vehicle::pos.

Referenced by npc::pick_up_item().

◆ is_last_ter_wall()

bool map::is_last_ter_wall ( bool  no_furn,
const point p,
const point max,
direction  dir 
) const

Check if the last terrain is wall in direction NORTH, SOUTH, WEST or EAST.

Parameters
no_furnif true, the function will stop and return false if it encounters a furniture
pstarting coordinates of check
maxending coordinates of check
dirDirection of check
Returns
true if from x to xmax or y to ymax depending on direction all terrain is floor and the last terrain is a wall

Definition at line 2570 of file map.cpp.

2572{
2573 point mov;
2574 switch( dir ) {
2575 case direction::NORTH:
2576 mov.y = -1;
2577 break;
2578 case direction::SOUTH:
2579 mov.y = 1;
2580 break;
2581 case direction::WEST:
2582 mov.x = -1;
2583 break;
2584 case direction::EAST:
2585 mov.x = 1;
2586 break;
2587 default:
2588 break;
2589 }
2590 point p2( p );
2591 bool result = true;
2592 bool loop = true;
2593 while( ( loop ) && ( ( dir == direction::NORTH && p2.y >= 0 ) ||
2594 ( dir == direction::SOUTH && p2.y < max.y ) ||
2595 ( dir == direction::WEST && p2.x >= 0 ) ||
2596 ( dir == direction::EAST && p2.x < max.x ) ) ) {
2597 if( no_furn && has_furn( p2 ) ) {
2598 loop = false;
2599 result = false;
2600 } else if( !has_flag_ter( "FLAT", p2 ) ) {
2601 loop = false;
2602 if( !has_flag_ter( "WALL", p2 ) ) {
2603 result = false;
2604 }
2605 }
2606 p2.x += mov.x;
2607 p2.y += mov.y;
2608 }
2609 return result;
2610}

References EAST, has_flag_ter(), has_furn(), NORTH, SOUTH, WEST, point::x, and point::y.

Referenced by find_potential_computer_point().

◆ is_outside() [1/2]

bool map::is_outside ( const point p) const
inline

Definition at line 1066 of file map.h.

1066 {
1067 return is_outside( tripoint( p, abs_sub.z ) );
1068 }
bool is_outside(const tripoint &p) const
Definition: map.cpp:2560

References abs_sub, is_outside(), and tripoint::z.

◆ is_outside() [2/2]

◆ is_suspension_valid()

bool map::is_suspension_valid ( const tripoint point)

Checks the four orientations in which a suspended tile could be valid, and returns if the tile is valid.

Definition at line 2959 of file map.cpp.

2960{
2961 if( ter( point + tripoint_east ) != t_open_air
2962 && ter( point + tripoint_west ) != t_open_air ) {
2963 return true;
2964 }
2967 return true;
2968 }
2970 && ter( point + tripoint_north ) != t_open_air ) {
2971 return true;
2972 }
2975 return true;
2976 }
2977 return false;
2978}
static constexpr tripoint tripoint_north
Definition: point.h:285
static constexpr tripoint tripoint_west
Definition: point.h:291
static constexpr tripoint tripoint_east
Definition: point.h:287
static constexpr tripoint tripoint_south
Definition: point.h:289

References t_open_air, ter(), tripoint_east, tripoint_north, tripoint_north_east, tripoint_north_west, tripoint_south, tripoint_south_east, tripoint_south_west, and tripoint_west.

Referenced by collapse_invalid_suspension(), and update_suspension_cache().

◆ is_transparent()

bool map::is_transparent ( const tripoint p) const

Returns whether the tile at p is transparent(you can look past it).

Definition at line 626 of file lightmap.cpp.

627{
629}

References light_transparency(), and LIGHT_TRANSPARENCY_SOLID.

Referenced by ranged::execute_shaped_attack(), ranged::expected_coverage(), get_known_connections(), mattack::riotbot(), and shoot().

◆ is_wall_adjacent()

bool map::is_wall_adjacent ( const tripoint center) const

Definition at line 1765 of file map.cpp.

1766{
1767 for( const tripoint &p : points_in_radius( center, 1 ) ) {
1768 if( p != center && impassable( p ) ) {
1769 return true;
1770 }
1771 }
1772 return false;
1773}

References center, impassable(), and points_in_radius().

Referenced by ma_requirements::is_valid_character().

◆ is_water_shallow_current() [1/2]

bool map::is_water_shallow_current ( const point p) const
inline

Definition at line 1080 of file map.h.

1080 {
1082 }
bool is_water_shallow_current(const tripoint &p) const
Definition: map.cpp:2550

References abs_sub, is_water_shallow_current(), and tripoint::z.

◆ is_water_shallow_current() [2/2]

bool map::is_water_shallow_current ( const tripoint p) const

Definition at line 2550 of file map.cpp.

2551{
2552 return has_flag( "CURRENT", p ) && !has_flag( TFLAG_DEEP_WATER, p );
2553}

References has_flag(), and TFLAG_DEEP_WATER.

Referenced by is_water_shallow_current(), and iexamine::quern_examine().

◆ light_at()

lit_level map::light_at ( const tripoint p) const

Definition at line 592 of file lightmap.cpp.

593{
594 if( !inbounds( p ) ) {
595 return lit_level::DARK; // Out of bounds
596 }
597
598 const auto &map_cache = get_cache_ref( p.z );
599 const auto &lm = map_cache.lm;
600 const auto &sm = map_cache.sm;
601 if( sm[p.x][p.y] >= LIGHT_SOURCE_BRIGHT ) {
602 return lit_level::BRIGHT;
603 }
604
605 const float max_light = lm[p.x][p.y].max();
606 if( max_light >= LIGHT_AMBIENT_LIT ) {
607 return lit_level::LIT;
608 }
609
610 if( max_light >= LIGHT_AMBIENT_LOW ) {
611 return lit_level::LOW;
612 }
613
614 return lit_level::DARK;
615}

References BRIGHT, DARK, get_cache_ref(), inbounds(), LIGHT_AMBIENT_LIT, LIGHT_AMBIENT_LOW, LIGHT_SOURCE_BRIGHT, LIT, LOW, coords::sm, tripoint::x, tripoint::y, and tripoint::z.

Referenced by Creature::sees().

◆ light_transparency()

float map::light_transparency ( const tripoint p) const

Definition at line 631 of file lightmap.cpp.

632{
633 return get_cache_ref( p.z ).transparency_cache[p.x][p.y];
634}

References get_cache_ref(), level_cache::transparency_cache, tripoint::x, tripoint::y, and tripoint::z.

Referenced by generate_lightmap(), and is_transparent().

◆ load() [1/2]

void map::load ( const tripoint w,
bool  update_vehicles 
)

Load submaps into grid.

This might create new submaps if the mapbuffer can not deliver the requested submap (as it does not exist on disc). This must be called before the map can be used at all!

Parameters
wglobal coordinates of the submap at grid[0]. This is in submap coordinates.
update_vehiclesIf true, add vehicles to the vehicle cache.

Definition at line 6601 of file map.cpp.

6602{
6603 for( auto &traps : traplocs ) {
6604 traps.clear();
6605 }
6606 field_furn_locs.clear();
6608 set_abs_sub( w );
6609 for( int gridx = 0; gridx < my_MAPSIZE; gridx++ ) {
6610 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
6611 loadn( point( gridx, gridy ), update_vehicle );
6612 }
6613 }
6615}
bool loadn(const tripoint &grid, bool update_vehicles)
Definition: map.cpp:6975

References field_furn_locs, loadn(), my_MAPSIZE, reset_vehicle_cache(), set_abs_sub(), submaps_with_active_items, and traplocs.

Referenced by start_location::add_map_extra(), add_monsters(), start_location::burn(), talk_function::buy_100_logs(), talk_function::buy_10_logs(), create_lab_consoles(), debug_menu::debug(), construct::done_digormine_stair(), construct::done_mine_upstair(), farm_action(), talk_function::field_build_1(), talk_function::field_build_2(), talk_function::field_harvest(), talk_function::field_plant(), find_valid_teleporters_omt(), basecamp::form_crafting_inventory(), mission_start::kill_horde_master(), load(), game::load_map(), talk_function::loot_building(), editmap::mapgen_veh_destroy(), editmap::mapgen_veh_query(), MapExtras::mx_minefield(), om_cutdown_trees(), om_harvest_furn(), om_harvest_itm(), om_harvest_ter(), om_set_hide_site(), teleporter_list::place_avatar_overmap(), Character::place_corpse(), mission_start::place_deposit_box(), mission_start::place_dog(), mission_start::place_npc_software(), mission_start::place_priest_diary(), basecamp::place_results(), game::place_vehicle_nearby(), mission_start::place_zombie_mom(), start_location::prepare_map(), mission_start::ranch_nurse_1(), mission_start::ranch_nurse_2(), mission_start::ranch_nurse_3(), mission_start::ranch_nurse_4(), mission_start::ranch_nurse_5(), mission_start::ranch_nurse_6(), mission_start::ranch_nurse_7(), mission_start::ranch_nurse_8(), mission_start::ranch_nurse_9(), mission_start::ranch_scavenger_1(), mission_start::ranch_scavenger_2(), mission_start::ranch_scavenger_3(), mission_start::reveal_lab_train_depot(), debug_menu::spawn_nested_mapgen(), basecamp::start_relay_hide_site(), update_mapgen_function_json::update_map(), game::vertical_move(), and game::vertical_shift().

◆ load() [2/2]

void map::load ( const tripoint_abs_sm w,
bool  update_vehicles 
)

Definition at line 6617 of file map.cpp.

6618{
6619 // TODO: fix point types
6620 load( w.raw(), update_vehicle );
6621}
constexpr Point & raw()
Definition: coordinates.h:111
void load(const tripoint &w, bool update_vehicles)
Load submaps into grid.
Definition: map.cpp:6601

References load(), and coords::coord_point< Point, Origin, Scale >::raw().

◆ loadn() [1/2]

bool map::loadn ( const point grid,
bool  update_vehicles 
)
inlineprotected

Definition at line 1719 of file map.h.

1719 {
1720 if( zlevels ) {
1721 bool generated = false;
1722 for( int gridz = -OVERMAP_DEPTH; gridz <= OVERMAP_HEIGHT; gridz++ ) {
1723 generated |= loadn( tripoint( grid, gridz ), update_vehicles );
1724 }
1725
1726 if( generated ) {
1727 // Note: we want it in a separate loop! It is a post-load cleanup
1728 // Since we're adding roofs, we want it to go up (from lowest to highest)
1729 for( int gridz = -OVERMAP_DEPTH; gridz <= OVERMAP_HEIGHT; gridz++ ) {
1730 add_roofs( tripoint( grid, gridz ) );
1731 }
1732 }
1733 return generated;
1734 } else {
1735 return loadn( tripoint( grid, abs_sub.z ), update_vehicles );
1736 }
1737 }
void add_roofs(const tripoint &grid)
Hacks in missing roofs.
Definition: map.cpp:7448

References abs_sub, add_roofs(), grid, loadn(), OVERMAP_DEPTH, OVERMAP_HEIGHT, tripoint::z, and zlevels.

◆ loadn() [2/2]

bool map::loadn ( const tripoint grid,
bool  update_vehicles 
)
protected

Definition at line 6975 of file map.cpp.

6976{
6977 // Cache empty overmap types
6978 static const oter_id rock( "empty_rock" );
6979 static const oter_id air( "open_air" );
6980
6981 const tripoint grid_abs_sub = abs_sub.xy() + grid;
6982 const size_t gridn = get_nonant( grid );
6983
6984 const int old_abs_z = abs_sub.z; // Ugly, but necessary at the moment
6985 abs_sub.z = grid.z;
6986
6987 bool generated = false;
6988
6989 submap *tmpsub = MAPBUFFER.lookup_submap( grid_abs_sub );
6990 if( tmpsub == nullptr ) {
6991 // It doesn't exist; we must generate it!
6992 dbg( DL::Info ) << "map::loadn: Missing mapbuffer data. Regenerating.";
6993
6994 // Each overmap square is two nonants; to prevent overlap, generate only at
6995 // squares divisible by 2.
6996 // TODO: fix point types
6997 const tripoint_abs_omt grid_abs_omt( sm_to_omt_copy( grid_abs_sub ) );
6998 const tripoint grid_abs_sub_rounded = omt_to_sm_copy( grid_abs_omt.raw() );
6999
7000 const oter_id terrain_type = overmap_buffer.ter( grid_abs_omt );
7001
7002 // Short-circuit if the map tile is uniform
7003 // TODO: Replace with json mapgen functions.
7004 if( terrain_type == air ) {
7005 generate_uniform( grid_abs_sub_rounded, t_open_air );
7006 } else if( terrain_type == rock ) {
7007 generate_uniform( grid_abs_sub_rounded, t_rock );
7008 } else {
7009 tinymap tmp_map;
7010 tmp_map.generate( grid_abs_sub_rounded, calendar::turn );
7011 }
7012
7013 // This is the same call to MAPBUFFER as above!
7014 tmpsub = MAPBUFFER.lookup_submap( grid_abs_sub );
7015 if( tmpsub == nullptr ) {
7016 debugmsg( "failed to generate a submap at %s", grid_abs_sub.to_string() );
7017 return false;
7018 }
7019 generated = true;
7020 }
7021
7022 // New submap changes the content of the map and all caches must be recalculated
7029 setsubmap( gridn, tmpsub );
7030 if( !tmpsub->active_items.empty() ) {
7031 submaps_with_active_items.emplace( grid_abs_sub );
7032 }
7033 if( tmpsub->field_count > 0 ) {
7034 get_cache( grid.z ).field_cache.set( grid.x + grid.y * MAPSIZE );
7035 }
7036 // Destroy bugged no-part vehicles
7037 auto &veh_vec = tmpsub->vehicles;
7038 for( auto iter = veh_vec.begin(); iter != veh_vec.end(); ) {
7039 vehicle *veh = iter->get();
7040 if( veh->part_count() > 0 ) {
7041 // Always fix submap coordinates for easier Z-level-related operations
7042 veh->sm_pos = grid;
7043 veh->attach();
7044 iter++;
7045 } else {
7047 if( veh->tracking_on ) {
7049 }
7050 dirty_vehicle_list.erase( veh );
7051 iter = veh_vec.erase( iter );
7052 }
7053 }
7054
7055 // Update vehicle data
7056 if( update_vehicles ) {
7057 auto &map_cache = get_cache( grid.z );
7058 for( const auto &veh : tmpsub->vehicles ) {
7059 // Only add if not tracking already.
7060 if( map_cache.vehicle_list.find( veh.get() ) == map_cache.vehicle_list.end() ) {
7061 map_cache.vehicle_list.insert( veh.get() );
7062 if( !veh->loot_zones.empty() ) {
7063 map_cache.zone_vehicles.insert( veh.get() );
7064 }
7065 add_vehicle_to_cache( veh.get() );
7066 }
7067 }
7068 }
7069
7070 actualize( grid );
7071
7072 abs_sub.z = old_abs_z;
7073 return generated;
7074}
void set_suspension_cache_dirty(const int zlev)
Definition: map.h:459
void generate(const tripoint &p, const time_point &when)
Definition: mapgen.cpp:105
void actualize(const tripoint &grid)
Fast forward a submap that has just been loading into this map.
Definition: map.cpp:7394
submap * lookup_submap(const tripoint &p)
Get a submap stored in this buffer.
Definition: mapbuffer.cpp:88
Definition: map.h:2095
std::unordered_multimap< point, zone_data > loot_zones
Definition: vehicle.h:1863
int part_count() const
Definition: vehicle.cpp:7075
void attach()
Definition: vehicle.h:764
point omt_to_sm_copy(const point &p)
static void generate_uniform(const tripoint &p, const ter_id &terrain_type)
Definition: map.cpp:6959
mapbuffer MAPBUFFER
Definition: mapbuffer.cpp:40

References abs_sub, submap::active_items, actualize(), add_vehicle_to_cache(), vehicle::attach(), dbg, debugmsg, dirty_vehicle_list, active_item_cache::empty(), level_cache::field_cache, submap::field_count, generate(), generate_uniform(), get_cache(), get_nonant(), grid, Info, mapbuffer::lookup_submap(), MAPBUFFER, MAPSIZE, omt_to_sm_copy(), overmap_buffer, vehicle::part_count(), coords::coord_point< Point, Origin, Scale >::raw(), overmapbuffer::remove_vehicle(), reset_vehicle_cache(), set_floor_cache_dirty(), set_outside_cache_dirty(), set_pathfinding_cache_dirty(), set_seen_cache_dirty(), set_suspension_cache_dirty(), set_transparency_cache_dirty(), setsubmap(), vehicle::sm_pos, sm_to_omt_copy(), submaps_with_active_items, t_open_air, t_rock, overmapbuffer::ter(), tripoint::to_string(), vehicle::tracking_on, calendar::turn, submap::vehicles, tripoint::xy(), and tripoint::z.

Referenced by load(), loadn(), and shift().

◆ make_active()

void map::make_active ( item_location loc)

Update an item's active status, for example when adding hot or perishable liquid to a container.

Definition at line 4408 of file map.cpp.

4409{
4410 item *target = loc.get_item();
4411
4412 // Trust but verify, don't let stinking callers set items active when they shouldn't be.
4413 if( !target->needs_processing() ) {
4414 return;
4415 }
4416 point l;
4417 submap *const current_submap = get_submap_at( loc.position(), l );
4418 cata::colony<item> &item_stack = current_submap->get_items( l );
4420
4421 if( current_submap->active_items.empty() ) {
4423 abs_sub.y + loc.position().y / SEEY, loc.position().z ) );
4424 }
4425 current_submap->active_items.add( *iter, l );
4426}
item * get_item()
Gets the selected item or nullptr.
tripoint position() const
Returns the position where the item is found.

References abs_sub, submap::active_items, active_item_cache::add(), active_item_cache::empty(), item_location::get_item(), submap::get_items(), item_stack::get_iterator_from_pointer(), get_submap_at(), item::needs_processing(), item_location::position(), SEEX, SEEY, submaps_with_active_items, tripoint::x, tripoint::y, and tripoint::z.

Referenced by make_active(), and liquid_handler::perform_liquid_transfer().

◆ make_rubble() [1/3]

void map::make_rubble ( const tripoint p)
inline

Definition at line 1061 of file map.h.

1061 {
1062 make_rubble( p, f_rubble, false, t_dirt, false );
1063 }

References f_rubble, make_rubble(), and t_dirt.

◆ make_rubble() [2/3]

void map::make_rubble ( const tripoint p,
const furn_id rubble_type,
bool  items 
)
inline

Definition at line 1058 of file map.h.

1058 {
1059 make_rubble( p, rubble_type, items, t_dirt, false );
1060 }

References make_rubble(), and t_dirt.

◆ make_rubble() [3/3]

void map::make_rubble ( const tripoint p,
const furn_id rubble_type,
bool  items,
const ter_id floor_type,
bool  overwrite = false 
)

Generates rubble at the given location, if overwrite is true it just writes on top of what currently exists floor_type is only used if there is a non-bashable wall at the location or with overwrite = true.

Definition at line 2495 of file map.cpp.

2497{
2498 if( overwrite ) {
2499 ter_set( p, floor_type );
2500 furn_set( p, rubble_type );
2501 } else {
2502 // First see if there is existing furniture to destroy
2503 if( is_bashable_furn( p ) ) {
2504 destroy_furn( p, true );
2505 }
2506 // Leave the terrain alone unless it interferes with furniture placement
2507 if( impassable( p ) && is_bashable_ter( p ) ) {
2508 destroy( p, true );
2509 }
2510 // Check again for new terrain after potential destruction
2511 if( impassable( p ) ) {
2512 ter_set( p, floor_type );
2513 }
2514
2515 furn_set( p, rubble_type );
2516 }
2517
2518 if( !items ) {
2519 return;
2520 }
2521
2522 //Still hardcoded, but a step up from the old stuff due to being in only one place
2523 if( rubble_type == f_wreckage ) {
2524 item chunk( "steel_chunk", calendar::turn );
2525 item scrap( "scrap", calendar::turn );
2526 add_item_or_charges( p, chunk );
2527 add_item_or_charges( p, scrap );
2528 if( one_in( 5 ) ) {
2529 item pipe( "pipe", calendar::turn );
2530 item wire( "wire", calendar::turn );
2531 add_item_or_charges( p, pipe );
2532 add_item_or_charges( p, wire );
2533 }
2534 } else if( rubble_type == f_rubble_rock ) {
2535 item rock( "rock", calendar::turn );
2536 int rock_count = rng( 1, 3 );
2537 for( int i = 0; i < rock_count; i++ ) {
2538 add_item_or_charges( p, rock );
2539 }
2540 } else if( rubble_type == f_rubble ) {
2541 item splinter( "splinter", calendar::turn );
2542 int splinter_count = rng( 2, 8 );
2543 for( int i = 0; i < splinter_count; i++ ) {
2544 add_item_or_charges( p, splinter );
2545 }
2546 spawn_item( p, itype_nail, 1, rng( 20, 50 ) );
2547 }
2548}
void destroy_furn(const tripoint &p, bool silent=false)
Keeps bashing a square until there is no more furniture.
Definition: map.cpp:3635
static const itype_id itype_nail("nail")

References add_item_or_charges(), destroy(), destroy_furn(), f_rubble, f_rubble_rock, f_wreckage, furn_set(), impassable(), is_bashable_furn(), is_bashable_ter(), itype_nail, one_in(), rng(), spawn_item(), ter_set(), and calendar::turn.

Referenced by computer_session::action_irradiator(), computer_session::action_srcf_seal(), jmapgen_make_rubble::apply(), collapse_at(), draw_lab(), draw_mine(), computer_session::failure_pump_explode(), make_rubble(), mapgen_crater(), MapExtras::mx_helicopter(), and MapExtras::mx_portal().

◆ maptile_at() [1/2]

maptile map::maptile_at ( const tripoint p)

Definition at line 208 of file map.cpp.

209{
210 if( !inbounds( p ) ) {
211 return maptile( &null_submap, point_zero );
212 }
213
214 return maptile_at_internal( p );
215}
static submap null_submap
Definition: map.cpp:197

References inbounds(), maptile_at_internal(), null_submap, and point_zero.

◆ maptile_at() [2/2]

maptile map::maptile_at ( const tripoint p) const

◆ maptile_at_internal() [1/2]

maptile map::maptile_at_internal ( const tripoint p)
private

Definition at line 225 of file map.cpp.

226{
227 point l;
228 submap *const sm = get_submap_at( p, l );
229
230 return maptile( sm, l );
231}

References get_submap_at(), and coords::sm.

◆ maptile_at_internal() [2/2]

maptile map::maptile_at_internal ( const tripoint p) const
private

Definition at line 217 of file map.cpp.

218{
219 point l;
220 submap *const sm = get_submap_at( p, l );
221
222 return maptile( sm, l );
223}

References get_submap_at(), and coords::sm.

Referenced by draw(), maptile_at(), maptile_has_bounds(), process_fields_in_submap(), route(), and spread_gas().

◆ maptile_has_bounds()

std::pair< tripoint, maptile > map::maptile_has_bounds ( const tripoint p,
bool  bounds_checked 
)
private

Definition at line 180 of file map_field.cpp.

181{
182 if( bounds_checked ) {
183 // We know that the point is in bounds
184 return {p, maptile_at_internal( p )};
185 }
186
187 return {p, maptile_at( p )};
188}

References maptile_at(), and maptile_at_internal().

Referenced by get_neighbors().

◆ max_volume()

units::volume map::max_volume ( const tripoint p)

Definition at line 4199 of file map.cpp.

4200{
4201 return i_at( p ).max_volume();
4202}
units::volume max_volume() const override
Maximum volume allowed here.
Definition: map.cpp:160

References i_at(), and map_stack::max_volume().

Referenced by advanced_inventory::print_items().

◆ mod_field_age()

time_duration map::mod_field_age ( const tripoint p,
const field_type_id type,
const time_duration offset 
)

Increment/decrement age of field entry at point.

Returns
resulting age or -1_turns if not present (does not create a new field).

Definition at line 5308 of file map.cpp.

5310{
5311 return set_field_age( p, type, offset, true );
5312}
time_duration set_field_age(const tripoint &p, const field_type_id &type, const time_duration &age, bool isoffset=false)
Set age of field entry at point.
Definition: map.cpp:5319

References set_field_age(), and type.

Referenced by game::process_artifact().

◆ mod_field_intensity()

int map::mod_field_intensity ( const tripoint p,
const field_type_id type,
int  offset 
)

Increment/decrement intensity of field entry at point, creating if not present, removing if intensity becomes 0.

Returns
resulting intensity, or 0 for not present (either removed or not created at all).

Definition at line 5314 of file map.cpp.

5315{
5316 return set_field_intensity( p, type, offset, true );
5317}
int set_field_intensity(const tripoint &p, const field_type_id &type, int new_intensity, bool isoffset=false)
Set intensity of field entry at point, creating if not present, removing if intensity becomes 0.
Definition: map.cpp:5332

References set_field_intensity(), and type.

Referenced by add_splatter(), and propagate_field().

◆ monster_in_field()

void map::monster_in_field ( monster z)
protected

Definition at line 1632 of file map_field.cpp.

1633{
1634 if( z.digging() ) {
1635 // Digging monsters are immune to fields
1636 return;
1637 }
1638 if( veh_at( z.pos() ) ) {
1639 // FIXME: Immune when in a vehicle for now.
1640 return;
1641 }
1642 field &curfield = get_field( z.pos() );
1643
1644 int dam = 0;
1645 // Iterate through all field effects on this tile.
1646 // Do not remove the field with remove_field, instead set it's intensity to 0. It will be removed
1647 // later by the field processing, which will also adjust field_count accordingly.
1648 for( auto &field_list_it : curfield ) {
1649 field_entry &cur = field_list_it.second;
1650 if( !cur.is_field_alive() ) {
1651 continue;
1652 }
1653 const field_type_id cur_field_type = cur.get_field_type();
1654 if( cur_field_type == fd_web ) {
1655 if( !z.has_flag( MF_WEBWALK ) ) {
1656 z.add_effect( effect_webbed, 1_turns, num_bp, cur.get_field_intensity() );
1657 cur.set_field_intensity( 0 );
1658 }
1659 }
1660 if( cur_field_type == fd_acid ) {
1661 if( !z.flies() ) {
1662 const int d = rng( cur.get_field_intensity(), cur.get_field_intensity() * 3 );
1663 z.deal_damage( nullptr, bodypart_id( "torso" ), damage_instance( DT_ACID, d ) );
1664 z.check_dead_state();
1665 if( d > 0 ) {
1666 z.add_effect( effect_corroding, 1_turns * rng( d / 2, d * 2 ) );
1667 }
1668 }
1669
1670 }
1671 if( cur_field_type == fd_sap ) {
1672 z.moves -= cur.get_field_intensity() * 5;
1674 }
1675 if( cur_field_type == fd_sludge ) {
1676 if( !z.digs() && !z.flies() &&
1677 !z.has_flag( MF_SLUDGEPROOF ) ) {
1678 z.moves -= cur.get_field_intensity() * 300;
1679 cur.set_field_intensity( 0 );
1680 }
1681 }
1682 if( cur_field_type == fd_fire ) {
1683 // TODO: MATERIALS Use fire resistance
1684 if( z.has_flag( MF_FIREPROOF ) || z.has_flag( MF_FIREY ) ) {
1685 return;
1686 }
1687 // TODO: Replace the section below with proper json values
1689 dam += 3;
1690 }
1691 if( z.made_of( material_id( "veggy" ) ) ) {
1692 dam += 12;
1693 }
1695 dam += 20;
1696 }
1698 dam += -20;
1699 }
1700 if( z.flies() ) {
1701 dam -= 15;
1702 }
1703 dam -= z.get_armor_type( DT_HEAT, bodypart_id( "torso" ) );
1704
1705 if( cur.get_field_intensity() == 1 ) {
1706 dam += rng( 2, 6 );
1707 } else if( cur.get_field_intensity() == 2 ) {
1708 dam += rng( 6, 12 );
1709 if( !z.flies() ) {
1710 z.moves -= 20;
1711 if( dam > 0 ) {
1712 z.add_effect( effect_onfire, 1_turns * rng( dam / 2, dam * 2 ) );
1713 }
1714 }
1715 } else if( cur.get_field_intensity() == 3 ) {
1716 dam += rng( 10, 20 );
1717 if( !z.flies() || one_in( 3 ) ) {
1718 z.moves -= 40;
1719 if( dam > 0 ) {
1720 z.add_effect( effect_onfire, 1_turns * rng( dam / 2, dam * 2 ) );
1721 }
1722 }
1723 }
1724 }
1725 if( cur_field_type == fd_smoke ) {
1726 if( !z.has_flag( MF_NO_BREATHE ) ) {
1727 if( cur.get_field_intensity() == 3 ) {
1728 z.moves -= rng( 10, 20 );
1729 }
1730 // Plants suffer from smoke even worse
1731 if( z.made_of( material_id( "veggy" ) ) ) {
1732 z.moves -= rng( 1, cur.get_field_intensity() * 12 );
1733 }
1734 }
1735
1736 }
1737 if( cur_field_type == fd_tear_gas ) {
1739 if( cur.get_field_intensity() == 3 ) {
1740 z.add_effect( effect_stunned, rng( 1_minutes, 2_minutes ) );
1741 dam += rng( 4, 10 );
1742 } else if( cur.get_field_intensity() == 2 ) {
1743 z.add_effect( effect_stunned, rng( 5_turns, 10_turns ) );
1744 dam += rng( 2, 5 );
1745 } else {
1746 z.add_effect( effect_stunned, rng( 1_turns, 5_turns ) );
1747 }
1748 if( z.made_of( material_id( "veggy" ) ) ) {
1749 z.moves -= rng( cur.get_field_intensity() * 5, cur.get_field_intensity() * 12 );
1750 dam += cur.get_field_intensity() * rng( 8, 14 );
1751 }
1752 if( z.has_flag( MF_SEES ) ) {
1753 z.add_effect( effect_blind, cur.get_field_intensity() * 8_turns );
1754 }
1755 }
1756
1757 }
1758 if( cur_field_type == fd_relax_gas ) {
1760 z.add_effect( effect_stunned, rng( cur.get_field_intensity() * 4_turns,
1761 cur.get_field_intensity() * 8_turns ) );
1762 }
1763 }
1764 if( cur_field_type == fd_dazzling ) {
1765 if( z.has_flag( MF_SEES ) && !z.has_flag( MF_ELECTRONIC ) ) {
1766 z.add_effect( effect_blind, cur.get_field_intensity() * 12_turns );
1767 z.add_effect( effect_stunned, cur.get_field_intensity() * rng( 5_turns, 12_turns ) );
1768 }
1769
1770 }
1771 if( cur_field_type == fd_toxic_gas ) {
1772 if( !z.has_flag( MF_NO_BREATHE ) ) {
1773 dam += cur.get_field_intensity();
1774 z.moves -= cur.get_field_intensity();
1775 }
1776
1777 }
1778 if( cur_field_type == fd_nuke_gas ) {
1779 if( !z.has_flag( MF_NO_BREATHE ) ) {
1780 if( cur.get_field_intensity() == 3 ) {
1781 z.moves -= rng( 60, 120 );
1782 dam += rng( 30, 50 );
1783 } else if( cur.get_field_intensity() == 2 ) {
1784 z.moves -= rng( 20, 50 );
1785 dam += rng( 10, 25 );
1786 } else {
1787 z.moves -= rng( 0, 15 );
1788 dam += rng( 0, 12 );
1789 }
1790 if( z.made_of( material_id( "veggy" ) ) ) {
1791 z.moves -= rng( cur.get_field_intensity() * 5, cur.get_field_intensity() * 12 );
1792 dam *= cur.get_field_intensity();
1793 }
1794 }
1795
1796 }
1797 if( cur_field_type == fd_flame_burst ) {
1798 // TODO: MATERIALS Use fire resistance
1799 if( z.has_flag( MF_FIREPROOF ) || z.has_flag( MF_FIREY ) ) {
1800 return;
1801 }
1803 dam += 3;
1804 }
1805 if( z.made_of( material_id( "veggy" ) ) ) {
1806 dam += 12;
1807 }
1809 dam += 50;
1810 }
1812 dam += -25;
1813 }
1814 dam += rng( 0, 8 );
1815 z.moves -= 20;
1816 }
1817 if( cur_field_type == fd_electricity ) {
1818 // We don't want to increase dam, but deal a separate hit so that it can apply effects
1819 z.deal_damage( nullptr, bodypart_id( "torso" ),
1820 damage_instance( DT_ELECTRIC, rng( 1, cur.get_field_intensity() * 3 ) ) );
1821 }
1822 if( cur_field_type == fd_fatigue ) {
1823 if( rng( 0, 2 ) < cur.get_field_intensity() ) {
1824 dam += cur.get_field_intensity();
1825 teleport::teleport( z );
1826 }
1827 }
1828 if( cur_field_type == fd_incendiary ) {
1829 // TODO: MATERIALS Use fire resistance
1830 if( z.has_flag( MF_FIREPROOF ) || z.has_flag( MF_FIREY ) ) {
1831 return;
1832 }
1834 dam += 3;
1835 }
1836 if( z.made_of( material_id( "veggy" ) ) ) {
1837 dam += 12;
1838 }
1840 dam += 20;
1841 }
1843 dam += -5;
1844 }
1845
1846 if( cur.get_field_intensity() == 1 ) {
1847 dam += rng( 2, 6 );
1848 } else if( cur.get_field_intensity() == 2 ) {
1849 dam += rng( 6, 12 );
1850 z.moves -= 20;
1851 if( !z.made_of( LIQUID ) && !z.made_of_any( Creature::cmat_flameres ) ) {
1852 z.add_effect( effect_onfire, rng( 8_turns, 12_turns ) );
1853 }
1854 } else if( cur.get_field_intensity() == 3 ) {
1855 dam += rng( 10, 20 );
1856 z.moves -= 40;
1857 if( !z.made_of( LIQUID ) && !z.made_of_any( Creature::cmat_flameres ) ) {
1858 z.add_effect( effect_onfire, rng( 12_turns, 16_turns ) );
1859 }
1860 }
1861 }
1862 if( cur_field_type == fd_fungal_haze ) {
1863 if( !z.type->in_species( FUNGUS ) &&
1864 !z.type->has_flag( MF_NO_BREATHE ) &&
1865 !z.make_fungus() ) {
1866 // Don't insta-kill jabberwocks, that's silly
1867 const int intensity = cur.get_field_intensity();
1868 z.moves -= rng( 10 * intensity, 30 * intensity );
1869 dam += rng( 0, 10 * intensity );
1870 }
1871 }
1872 if( cur_field_type == fd_fungicidal_gas ) {
1873 if( z.type->in_species( FUNGUS ) ) {
1874 const int intensity = cur.get_field_intensity();
1875 z.moves -= rng( 10 * intensity, 30 * intensity );
1876 dam += rng( 4, 7 * intensity );
1877 }
1878 }
1879 if( cur_field_type == fd_insecticidal_gas ) {
1880 if( z.type->in_species( INSECT ) || z.type->in_species( SPIDER ) ) {
1881 const int intensity = cur.get_field_intensity();
1882 z.moves -= rng( 10 * intensity, 30 * intensity );
1883 dam += rng( 4, 7 * intensity );
1884 }
1885 }
1886 }
1887
1888 if( dam > 0 ) {
1889 z.apply_damage( nullptr, bodypart_id( "torso" ), dam, true );
1890 z.check_dead_state();
1891 }
1892}
static const std::set< material_id > cmat_flammable
Definition: creature.h:477
virtual dealt_damage_instance deal_damage(Creature *source, bodypart_id bp, const damage_instance &dam)
Deals the damage via an attack.
Definition: creature.cpp:879
static const std::set< material_id > cmat_flesh
Definition: creature.h:475
int moves
Definition: creature.h:569
static const std::set< material_id > cmat_fleshnveg
Definition: creature.h:476
static const std::set< material_id > cmat_flameres
Definition: creature.h:478
bool has_flag(m_flag f) const override
Definition: monster.cpp:889
bool digs() const
Definition: monster.cpp:931
bool made_of_any(const std::set< material_id > &ms) const override
Definition: monster.cpp:983
void add_effect(const efftype_id &eff_id, const time_duration &dur, const bodypart_str_id &bp, int intensity=0, bool force=false, bool deferred=false) override
Performs any monster-specific modifications to the arguments before passing to Creature::add_effect()...
Definition: monster.cpp:1831
bool make_fungus()
Makes this monster into a fungus version Returns false if no such monster exists Returns true if mons...
Definition: monster.cpp:2623
const tripoint & pos() const override
Definition: monster.cpp:256
bool made_of(const material_id &m) const override
Definition: monster.cpp:978
const mtype * type
Definition: monster.h:481
int get_armor_type(damage_type dt, bodypart_id bp) const override
Definition: monster.cpp:1892
bool flies() const
Definition: monster.cpp:936
bool digging() const override
Definition: monster.cpp:921
@ DT_ELECTRIC
Definition: damage.h:30
@ DT_HEAT
Definition: damage.h:28
field_type_id fd_incendiary
Definition: field_type.cpp:372
field_type_id fd_toxic_gas
Definition: field_type.cpp:347
field_type_id fd_tear_gas
Definition: field_type.cpp:348
field_type_id fd_sludge
Definition: field_type.cpp:344
field_type_id fd_nuke_gas
Definition: field_type.cpp:349
field_type_id fd_dazzling
Definition: field_type.cpp:361
field_type_id fd_electricity
Definition: field_type.cpp:353
field_type_id fd_fungal_haze
Definition: field_type.cpp:374
field_type_id fd_smoke
Definition: field_type.cpp:346
field_type_id fd_sap
Definition: field_type.cpp:343
field_type_id fd_fungicidal_gas
Definition: field_type.cpp:383
field_type_id fd_acid
Definition: field_type.cpp:342
field_type_id fd_flame_burst
Definition: field_type.cpp:352
field_type_id fd_relax_gas
Definition: field_type.cpp:373
field_type_id fd_fatigue
Definition: field_type.cpp:354
field_type_id fd_insecticidal_gas
Definition: field_type.cpp:384
static const efftype_id effect_blind("blind")
static const species_id FUNGUS("FUNGUS")
static const species_id INSECT("INSECT")
static const efftype_id effect_webbed("webbed")
static const efftype_id effect_stunned("stunned")
static const species_id SPIDER("SPIDER")
static const efftype_id effect_onfire("onfire")
@ MF_SEES
Definition: mtype.h:67
@ MF_FIREY
Definition: mtype.h:103
@ MF_WEBWALK
Definition: mtype.h:85
@ MF_FIREPROOF
Definition: mtype.h:99
@ MF_SLUDGEPROOF
Definition: mtype.h:100
@ MF_ELECTRONIC
Definition: mtype.h:105
@ MF_NO_BREATHE
Definition: mtype.h:123
bool teleport(Creature &critter, int min_distance=2, int max_distance=12, bool safe=false, bool add_teleglow=true)
Teleports a creature to a tile within min_distance and max_distance tiles.
Definition: teleport.cpp:24
bool has_flag(m_flag flag) const
Definition: mtype.cpp:75
bool in_species(const species_id &spec) const
Definition: mtype.cpp:122

References monster::add_effect(), monster::apply_damage(), Creature::check_dead_state(), Creature::cmat_flameres, Creature::cmat_flammable, Creature::cmat_flesh, Creature::cmat_fleshnveg, Creature::deal_damage(), monster::digging(), monster::digs(), DT_ACID, DT_ELECTRIC, DT_HEAT, effect_blind, effect_corroding, effect_onfire, effect_stunned, effect_webbed, fd_acid, fd_dazzling, fd_electricity, fd_fatigue, fd_fire, fd_flame_burst, fd_fungal_haze, fd_fungicidal_gas, fd_incendiary, fd_insecticidal_gas, fd_nuke_gas, fd_relax_gas, fd_sap, fd_sludge, fd_smoke, fd_tear_gas, fd_toxic_gas, fd_web, monster::flies(), FUNGUS, monster::get_armor_type(), get_field(), field_entry::get_field_intensity(), field_entry::get_field_type(), monster::has_flag(), mtype::has_flag(), mtype::in_species(), INSECT, field_entry::is_field_alive(), LIQUID, monster::made_of(), monster::made_of_any(), monster::make_fungus(), MF_ELECTRONIC, MF_FIREPROOF, MF_FIREY, MF_NO_BREATHE, MF_SEES, MF_SLUDGEPROOF, MF_WEBWALK, Creature::moves, num_bp, one_in(), monster::pos(), rng(), field_entry::set_field_intensity(), SPIDER, teleport::teleport(), monster::type, and veh_at().

Referenced by creature_in_field().

◆ mop_spills()

bool map::mop_spills ( const tripoint p)

Remove moppable fields/items at this location.

Parameters
pthe location
Returns
true if anything moppable was there, false otherwise.

Definition at line 2791 of file map.cpp.

2792{
2793 bool retval = false;
2794
2795 if( !has_flag( "LIQUIDCONT", p ) && !has_flag( "SEALED", p ) ) {
2796 auto items = i_at( p );
2797 auto new_end = std::remove_if( items.begin(), items.end(), []( const item & it ) {
2798 return it.made_of( LIQUID );
2799 } );
2800 retval = new_end != items.end();
2801 while( new_end != items.end() ) {
2802 new_end = items.erase( new_end );
2803 }
2804 }
2805
2806 field &fld = field_at( p );
2807 static const std::vector<field_type_id> to_check = {
2808 fd_blood,
2816 fd_bile,
2817 fd_slime,
2818 fd_sludge
2819 };
2820 for( field_type_id fid : to_check ) {
2821 retval |= fld.remove_field( fid );
2822 }
2823
2824 if( const optional_vpart_position vp = veh_at( p ) ) {
2825 vehicle *const veh = &vp->vehicle();
2826 std::vector<int> parts_here = veh->parts_at_relative( vp->mount(), true );
2827 for( auto &elem : parts_here ) {
2828 if( veh->part( elem ).blood > 0 ) {
2829 veh->part( elem ).blood = 0;
2830 retval = true;
2831 }
2832 //remove any liquids that somehow didn't fall through to the ground
2833 vehicle_stack here = veh->get_items( elem );
2834 auto new_end = std::remove_if( here.begin(), here.end(), []( const item & it ) {
2835 return it.made_of( LIQUID );
2836 } );
2837 retval |= ( new_end != here.end() );
2838 while( new_end != here.end() ) {
2839 new_end = here.erase( new_end );
2840 }
2841 }
2842 } // if veh != 0
2843 return retval;
2844}
bool remove_field(const field_type_id &field_to_remove)
Removes the field entry with a type equal to the field_type_id parameter.
Definition: field.cpp:219
iterator erase(const_iterator it) override
Definition: vehicle.cpp:230
std::vector< int > parts_at_relative(const point &dp, bool use_cache) const
Definition: vehicle.cpp:2416
field_type_id fd_gibs_insect
Definition: field_type.cpp:365
field_type_id fd_blood_insect
Definition: field_type.cpp:363
field_type_id fd_bile
Definition: field_type.cpp:337
field_type_id fd_blood_invertebrate
Definition: field_type.cpp:364
field_type_id fd_blood_veggy
Definition: field_type.cpp:362
field_type_id fd_gibs_veggy
Definition: field_type.cpp:339
field_type_id fd_blood
Definition: field_type.cpp:336
field_type_id fd_slime
Definition: field_type.cpp:341
field_type_id fd_gibs_invertebrate
Definition: field_type.cpp:366
field_type_id fd_gibs_flesh
Definition: field_type.cpp:338

References item_stack::begin(), vehicle_part::blood, item_stack::end(), vehicle_stack::erase(), fd_bile, fd_blood, fd_blood_insect, fd_blood_invertebrate, fd_blood_veggy, fd_gibs_flesh, fd_gibs_insect, fd_gibs_invertebrate, fd_gibs_veggy, fd_slime, fd_sludge, field_at(), vehicle::get_items(), has_flag(), i_at(), vehicle::part(), vehicle::parts_at_relative(), field::remove_field(), veh_at(), and vehicle::vehicle().

◆ move_cost() [1/2]

int map::move_cost ( const point p,
const vehicle ignored_vehicle = nullptr 
) const
inline

Definition at line 624 of file map.h.

624 {
625 return move_cost( tripoint( p, abs_sub.z ), ignored_vehicle );
626 }

References abs_sub, move_cost(), and tripoint::z.

◆ move_cost() [2/2]

int map::move_cost ( const tripoint p,
const vehicle ignored_vehicle = nullptr 
) const

Calculate the cost to move past the tile at p.

The move cost is determined by various obstacles, such as terrain, vehicles and furniture.

Note
Movement costs for players and zombies both use this function.
Returns
The return value is interpreted as follows:
Move Cost Meaning
0 Impassable. Use passable/impassable to check for this.
n > 0 x*n turns to move past this

Definition at line 1777 of file map.cpp.

1778{
1779 if( !inbounds( p ) ) {
1780 return 0;
1781 }
1782
1783 const furn_t &furniture = furn( p ).obj();
1784 const ter_t &terrain = ter( p ).obj();
1785 const optional_vpart_position vp = veh_at( p );
1786 vehicle *const veh = ( !vp || &vp->vehicle() == ignored_vehicle ) ? nullptr : &vp->vehicle();
1787 const int part = veh ? vp->part_index() : -1;
1788
1789 return move_cost_internal( furniture, terrain, veh, part );
1790}
int move_cost_internal(const furn_t &furniture, const ter_t &terrain, const vehicle *veh, int vpart) const
Internal versions of public functions to avoid checking same variables multiple times.
Definition: map.cpp:1740

References furn(), furniture, inbounds(), move_cost_internal(), int_id< T >::obj(), ter(), terrain, and veh_at().

Referenced by Character::base_comfort_value(), activity_handlers::burrow_finish(), combined_movecost(), draw_mine(), game::grabbed_veh_move(), place_trap_actor::is_allowed(), is_solid_neighbor(), mine_activity(), npc::move_away_from(), move_cost(), obstacle_coverage(), passable(), activity_handlers::pickaxe_finish(), game::print_terrain_info(), reachable_flood_steps(), deploy_furn_actor::use(), and game::walk_move().

◆ move_cost_internal()

int map::move_cost_internal ( const furn_t furniture,
const ter_t terrain,
const vehicle veh,
int  vpart 
) const
private

Internal versions of public functions to avoid checking same variables multiple times.

They lack safety checks, because their callers already do those.

Definition at line 1740 of file map.cpp.

1742{
1743 if( terrain.movecost == 0 || ( furniture.id && furniture.movecost < 0 ) ) {
1744 return 0;
1745 }
1746
1747 if( veh != nullptr ) {
1748 const vpart_position vp( const_cast<vehicle &>( *veh ), vpart );
1749 if( vp.obstacle_at_part() ) {
1750 return 0;
1751 } else if( vp.part_with_feature( VPFLAG_AISLE, true ) ) {
1752 return 2;
1753 } else {
1754 return 8;
1755 }
1756 }
1757
1758 if( furniture.id ) {
1759 return std::max( terrain.movecost + furniture.movecost, 0 );
1760 }
1761
1762 return std::max( terrain.movecost, 0 );
1763}

References furniture, vpart_position::obstacle_at_part(), vpart_position::part_with_feature(), terrain, and VPFLAG_AISLE.

Referenced by move_cost(), route(), and update_pathfinding_cache().

◆ move_cost_ter_furn() [1/2]

int map::move_cost_ter_furn ( const point p) const
inline

Definition at line 641 of file map.h.

641 {
642 return move_cost_ter_furn( tripoint( p, abs_sub.z ) );
643 }
int move_cost_ter_furn(const tripoint &p) const
Similar behavior to move_cost(), but ignores vehicles.
Definition: map.cpp:1802

References abs_sub, move_cost_ter_furn(), and tripoint::z.

◆ move_cost_ter_furn() [2/2]

int map::move_cost_ter_furn ( const tripoint p) const

Similar behavior to move_cost(), but ignores vehicles.

Definition at line 1802 of file map.cpp.

1803{
1804 if( !inbounds( p ) ) {
1805 return 0;
1806 }
1807
1808 point l;
1809 submap *const current_submap = get_submap_at( p, l );
1810
1811 const int tercost = current_submap->get_ter( l ).obj().movecost;
1812 if( tercost == 0 ) {
1813 return 0;
1814 }
1815
1816 const int furncost = current_submap->get_furn( l ).obj().movecost;
1817 if( furncost < 0 ) {
1818 return 0;
1819 }
1820
1821 const int cost = tercost + furncost;
1822 return cost > 0 ? cost : 0;
1823}

References submap::get_furn(), get_submap_at(), submap::get_ter(), inbounds(), map_data_common_t::movecost, and int_id< T >::obj().

Referenced by move_cost_ter_furn(), vehicle::part_collision(), passable_ter_furn(), and vehicle_wheel_traction().

◆ move_vehicle()

vehicle * map::move_vehicle ( vehicle veh,
const tripoint dp,
const tileray facing 
)

Definition at line 518 of file map.cpp.

519{
520 if( dp == tripoint_zero ) {
521 debugmsg( "Empty displacement vector" );
522 return &veh;
523 } else if( std::abs( dp.x ) > 1 || std::abs( dp.y ) > 1 || std::abs( dp.z ) > 1 ) {
524 debugmsg( "Invalid displacement vector: %d, %d, %d", dp.x, dp.y, dp.z );
525 return &veh;
526 }
527 // Split the movement into horizontal and vertical for easier processing
528 if( dp.xy() != point_zero && dp.z != 0 ) {
529 vehicle *const new_pointer = move_vehicle( veh, tripoint( dp.xy(), 0 ), facing );
530 if( !new_pointer ) {
531 return nullptr;
532 }
533
534 vehicle *const result = move_vehicle( *new_pointer, tripoint( 0, 0, dp.z ), facing );
535 if( !result ) {
536 return nullptr;
537 }
538
539 result->is_falling = false;
540 return result;
541 }
542 const bool vertical = dp.z != 0;
543 // Ensured by the splitting above
544 assert( vertical == ( dp.xy() == point_zero ) );
545
546 const int target_z = dp.z + veh.sm_pos.z;
547 if( target_z < -OVERMAP_DEPTH || target_z > OVERMAP_HEIGHT ) {
548 return &veh;
549 }
550
551 veh.precalc_mounts( 1, veh.skidding ? veh.turn_dir : facing.dir(), veh.pivot_point() );
552
553 // cancel out any movement of the vehicle due only to a change in pivot
554 tripoint dp1 = dp - veh.pivot_displacement();
555
556 if( !vertical ) {
557 veh.adjust_zlevel( 1, dp1 );
558 }
559
560 int impulse = 0;
561
562 std::vector<veh_collision> collisions;
563
564 // Find collisions
565 // Velocity of car before collision
566 // Split into vertical and horizontal movement
567 const int &coll_velocity = vertical ? veh.vertical_velocity : veh.velocity;
568 const int velocity_before = coll_velocity;
569 if( velocity_before == 0 && !veh.is_rotorcraft() && !veh.is_flying_in_air() ) {
570 debugmsg( "%s tried to move %s with no velocity",
571 veh.name, vertical ? "vertically" : "horizontally" );
572 return &veh;
573 }
574
575 bool veh_veh_coll_flag = false;
576 // Try to collide multiple times
577 size_t collision_attempts = 10;
578 do {
579 collisions.clear();
580 veh.collision( collisions, dp1, false );
581
582 // Vehicle collisions
583 std::map<vehicle *, std::vector<veh_collision> > veh_collisions;
584 for( auto &coll : collisions ) {
585 if( coll.type != veh_coll_veh ) {
586 continue;
587 }
588
589 veh_veh_coll_flag = true;
590 // Only collide with each vehicle once
591 veh_collisions[ static_cast<vehicle *>( coll.target ) ].push_back( coll );
592 }
593
594 for( auto &pair : veh_collisions ) {
595 impulse += vehicle_vehicle_collision( veh, *pair.first, pair.second );
596 }
597
598 // Non-vehicle collisions
599 for( const auto &coll : collisions ) {
600 if( coll.type == veh_coll_veh ) {
601 continue;
602 }
603 if( coll.part > veh.part_count() ||
604 veh.part( coll.part ).removed ) {
605 continue;
606 }
607
608 const point &collision_point = veh.part( coll.part ).mount;
609 const int coll_dmg = coll.imp;
610 // Shock damage, if the target part is a rotor treat as an aimed hit.
611 if( veh.part_info( coll.part ).rotor_diameter() > 0 ) {
612 veh.damage( coll.part, coll_dmg, DT_BASH, true );
613 } else {
614 impulse += coll_dmg;
615 veh.damage( coll.part, coll_dmg, DT_BASH );
616 veh.damage_all( coll_dmg / 2, coll_dmg, DT_BASH, collision_point );
617 }
618 }
619
620 // prevent vehicle bouncing after the first collision
621 if( vertical && velocity_before < 0 && coll_velocity > 0 ) {
622 veh.vertical_velocity = 0; // also affects `coll_velocity` and thus exits the loop
623 }
624
625 } while( collision_attempts-- > 0 && coll_velocity != 0 &&
626 sgn( coll_velocity ) == sgn( velocity_before ) &&
627 !collisions.empty() && !veh_veh_coll_flag );
628
629 const int velocity_after = coll_velocity;
630 bool can_move = velocity_after != 0 && sgn( velocity_after ) == sgn( velocity_before );
631 if( dp.z != 0 && veh.is_rotorcraft() ) {
632 can_move = true;
633 }
634 units::angle coll_turn = 0_degrees;
635 if( impulse > 0 ) {
636 coll_turn = shake_vehicle( veh, velocity_before, facing.dir() );
637 veh.stop_autodriving();
638 const int volume = std::min<int>( 100, std::sqrt( impulse ) );
639 // TODO: Center the sound at weighted (by impulse) average of collisions
641 false, "smash_success", "hit_vehicle" );
642 }
643
644 if( veh_veh_coll_flag ) {
645 // Break here to let the hit vehicle move away
646 return nullptr;
647 }
648
649 // If not enough wheels, mess up the ground a bit.
650 if( !vertical && !veh.valid_wheel_config() && !veh.is_in_water() && !veh.is_flying_in_air() &&
651 dp.z == 0 ) {
652 veh.velocity += veh.velocity < 0 ? 2000 : -2000;
653 for( const auto &p : veh.get_points() ) {
654 const ter_id &pter = ter( p );
655 if( pter == t_dirt || pter == t_grass ) {
656 ter_set( p, t_dirtmound );
657 }
658 }
659 }
660
661 const units::angle last_turn_dec = 1_degrees;
662 if( veh.last_turn < 0_degrees ) {
663 veh.last_turn += last_turn_dec;
664 if( veh.last_turn > -last_turn_dec ) {
665 veh.last_turn = 0_degrees;
666 }
667 } else if( veh.last_turn > 0_degrees ) {
668 veh.last_turn -= last_turn_dec;
669 if( veh.last_turn < last_turn_dec ) {
670 veh.last_turn = 0_degrees;
671 }
672 }
673
674 Character &player_character = get_player_character();
675 const bool seen = sees_veh( player_character, veh, false );
676
677 if( can_move || ( vertical && veh.is_falling ) ) {
678 // Accept new direction
679 if( veh.skidding ) {
680 veh.face.init( veh.turn_dir );
681 } else {
682 veh.face = facing;
683 }
684
685 veh.move = facing;
686 if( coll_turn != 0_degrees ) {
687 veh.skidding = true;
688 veh.turn( coll_turn );
689 }
690 veh.on_move();
691 // Actually change position
692 displace_vehicle( veh, dp1 );
693 veh.shift_zlevel();
694 } else if( !vertical ) {
695 veh.stop();
696 }
698 // If the PC is in the currently moved vehicle, adjust the
699 // view offset.
700 if( g->u.controlling_vehicle && veh_pointer_or_null( veh_at( g->u.pos() ) ) == &veh ) {
701 g->calc_driving_offset( &veh );
702 if( veh.skidding && can_move ) {
703 // TODO: Make skid recovery in air hard
705 }
706 }
707 // Now we're gonna handle traps we're standing on (if we're still moving).
708 if( !vertical && can_move ) {
709 const auto wheel_indices = veh.wheelcache; // Don't use a reference here, it causes a crash.
710
711 // Values to deal with crushing items.
712 // The math needs to be floating-point to work, so the values might as well be.
713 const float vehicle_grounded_wheel_area = static_cast<int>( vehicle_wheel_traction( veh, true ) );
714 const float weight_to_damage_factor = 0.05; // Nobody likes a magic number.
715 const float vehicle_mass_kg = to_kilogram( veh.total_mass() );
716
717 for( auto &w : wheel_indices ) {
718 const tripoint wheel_p = veh.global_part_pos3( w );
719 if( one_in( 2 ) && displace_water( wheel_p ) ) {
720 sounds::sound( wheel_p, 4, sounds::sound_t::movement, _( "splash!" ), false,
721 "environment", "splash" );
722 }
723
724 veh.handle_trap( wheel_p, w );
725 if( !has_flag( "SEALED", wheel_p ) ) {
726 const float wheel_area = veh.part( w ).wheel_area();
727
728 // Damage is calculated based on the weight of the vehicle,
729 // The area of it's wheels, and the area of the wheel running over the items.
730 // This number is multiplied by weight_to_damage_factor to get reasonable results, damage-wise.
731 const int wheel_damage = static_cast<int>( ( ( wheel_area / vehicle_grounded_wheel_area ) *
732 vehicle_mass_kg ) * weight_to_damage_factor );
733
734 //~ %1$s: vehicle name
735 smash_items( wheel_p, wheel_damage, string_format( _( "weight of %1$s" ), veh.disp_name() ),
736 false );
737 }
738 }
739 }
740 if( veh.is_towing() ) {
741 veh.do_towing_move();
742 // veh.do_towing_move() may cancel towing, so we need to recheck is_towing here
743 if( veh.is_towing() && veh.tow_data.get_towed()->tow_cable_too_far() ) {
744 add_msg( m_info, _( "A towing cable snaps off of %s." ),
745 veh.tow_data.get_towed()->disp_name() );
746 veh.tow_data.get_towed()->invalidate_towing( true );
747 }
748 }
749 // Redraw scene, but only if the player is not engaged in an activity and
750 // the vehicle was seen before or after the move.
751 if( !player_character.activity && ( seen || sees_veh( player_character, veh, true ) ) ) {
752 g->invalidate_main_ui_adaptor();
755 }
756 return &veh;
757}
player_activity activity
Definition: character.h:1516
float vehicle_wheel_traction(const vehicle &veh, bool ignore_movement_modifiers=false) const
void smash_items(const tripoint &p, int power, const std::string &cause_message, bool do_destroy)
Tries to smash the items at the given tripoint.
Definition: map.cpp:2980
bool displace_vehicle(vehicle &veh, const tripoint &dp)
Definition: map.cpp:1116
bool displace_water(const tripoint &dp)
Definition: map.cpp:1276
units::angle shake_vehicle(vehicle &veh, int velocity_before, units::angle direction)
vehicle * move_vehicle(vehicle &veh, const tripoint &dp, const tileray &facing)
Definition: map.cpp:518
float vehicle_vehicle_collision(vehicle &veh, vehicle &veh2, const std::vector< veh_collision > &collisions)
Definition: map.cpp:759
void init(const point &ad)
Definition: tileray.cpp:27
vehicle * get_towed() const
Definition: vehicle.h:158
void damage_all(int dmg1, int dmg2, damage_type type, const point &impact)
Definition: vehicle.cpp:6442
void turn(units::angle deg)
const point & pivot_point() const
Definition: vehicle.cpp:5826
void adjust_zlevel(int idir=0, const tripoint &offset=tripoint_zero)
bool is_rotorcraft() const
is the vehicle flying? is it a rotorcraft?
Definition: vehicle.cpp:4197
std::set< tripoint > & get_points(bool force_refresh=false)
Definition: vehicle.cpp:6758
bool skidding
Definition: vehicle.h:1999
units::angle last_turn
Definition: vehicle.h:1929
void precalc_mounts(int idir, units::angle dir, const point &pivot)
Definition: vehicle.cpp:3150
bool is_towing() const
Definition: vehicle.cpp:6034
int vertical_velocity
Definition: vehicle.h:1922
int velocity
Definition: vehicle.h:1918
bool valid_wheel_config() const
Definition: vehicle.cpp:4459
units::mass total_mass() const
Definition: vehicle.cpp:3306
std::vector< int > wheelcache
Definition: vehicle.h:1818
void check_falling_or_floating()
bool is_flying_in_air() const
Definition: vehicle.cpp:4207
towing_data tow_data
Definition: vehicle.h:1944
int damage(int p, int dmg, damage_type type=DT_BASH, bool aimed=true)
Definition: vehicle.cpp:6363
bool is_in_water(bool deep_water=false) const
is the vehicle mostly in water or mostly on fairly dry land?
Definition: vehicle.cpp:4222
void possibly_recover_from_skid()
tileray move
Definition: vehicle.h:1950
void stop_autodriving(bool apply_brakes=true)
bool collision(std::vector< veh_collision > &colls, const tripoint &dp, bool just_detect, bool bash_floor=false)
bool tow_cable_too_far() const
Definition: vehicle.cpp:6163
std::string disp_name() const
void handle_trap(const tripoint &p, int part)
bool is_falling
Definition: vehicle.h:2005
void shift_zlevel()
units::angle turn_dir
Definition: vehicle.h:1927
point pivot_displacement() const
Definition: vehicle.cpp:3344
void do_towing_move()
Definition: vehicle.cpp:5935
void on_move()
Definition: vehicle.cpp:5276
int rotor_diameter() const
Definition: veh_type.cpp:908
@ m_info
Definition: enums.h:258
constexpr int sgn(const T x)
Definition: enums.h:8
static bool sees_veh(const Creature &c, vehicle &veh, bool force_recalc)
Definition: map.cpp:510
void redraw_invalidated()
Definition: ui_manager.cpp:290
quantity< int, volume_in_milliliter_tag > volume
Definition: units_volume.h:16
constexpr value_type to_kilogram(const quantity< value_type, mass_in_milligram_tag > &v)
Definition: units_mass.h:73
void refresh_display()
Make changes made to the display visible to the user immediately.
static constexpr tripoint tripoint_zero
Definition: point.h:273
int wheel_area() const
Get wheel diameter times wheel width (inches^2) or return 0 if part is not wheel.
bool removed
true if this part is removed.
Definition: vehicle.h:410
point mount
mount point: x is on the forward/backward axis, y is on the left/right axis
Definition: vehicle.h:367
@ veh_coll_veh
Definition: vehicle.h:101

References _, Character::activity, add_msg(), vehicle::adjust_zlevel(), vehicle::check_falling_or_floating(), vehicle::collision(), sounds::combat, vehicle::damage(), vehicle::damage_all(), debugmsg, tileray::dir(), vehicle::disp_name(), displace_vehicle(), displace_water(), vehicle::do_towing_move(), DT_BASH, vehicle::face, g, get_player_character(), vehicle::get_points(), towing_data::get_towed(), vehicle::global_part_pos3(), vehicle::global_pos3(), vehicle::handle_trap(), has_flag(), tileray::init(), vehicle::invalidate_towing(), vehicle::is_falling, vehicle::is_flying_in_air(), vehicle::is_in_water(), vehicle::is_rotorcraft(), vehicle::is_towing(), vehicle::last_turn, m_info, vehicle_part::mount, vehicle::move, move_vehicle(), sounds::movement, vehicle::name, vehicle::on_move(), one_in(), OVERMAP_HEIGHT, vehicle::part(), vehicle::part_count(), vehicle::part_info(), vehicle::pivot_displacement(), vehicle::pivot_point(), point_zero, vehicle::possibly_recover_from_skid(), vehicle::precalc_mounts(), ui_manager::redraw_invalidated(), refresh_display(), vehicle_part::removed, vpart_info::rotor_diameter(), sees_veh(), sgn(), shake_vehicle(), vehicle::shift_zlevel(), vehicle::skidding, vehicle::sm_pos, smash_items(), sounds::sound(), vehicle::stop(), vehicle::stop_autodriving(), string_format(), t_dirt, t_dirtmound, t_grass, ter(), ter_set(), units::to_kilogram(), vehicle::total_mass(), vehicle::tow_cable_too_far(), vehicle::tow_data, tripoint_zero, vehicle::turn(), vehicle::turn_dir, vehicle::valid_wheel_config(), veh_at(), veh_coll_veh, veh_pointer_or_null(), vehicle_vehicle_collision(), vehicle_wheel_traction(), vehicle::velocity, vehicle::vertical_velocity, vehicle_part::wheel_area(), vehicle::wheelcache, tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by vehicle::act_on_map(), and move_vehicle().

◆ name() [1/2]

std::string map::name ( const point p)
inline

Definition at line 840 of file map.h.

840 {
841 return name( tripoint( p, abs_sub.z ) );
842 }

References abs_sub, name(), and tripoint::z.

◆ name() [2/2]

◆ obscured_by_vehicle_rotation()

bool map::obscured_by_vehicle_rotation ( const tripoint from,
const tripoint to 
) const

Checks if a rotated vehicle is blocking diagonal vision, tripoints must be adjacent.

Definition at line 6511 of file map.cpp.

6512{
6513 if( !inbounds( from ) || !inbounds( to ) ) {
6514 return false;
6515 }
6516
6517 if( from.z != to.z ) {
6518 //Split it into two checks, one for each z level
6519 tripoint flattened = {from.xy(), to.z};
6520 if( obscured_by_vehicle_rotation( flattened, to ) ) {
6521 return true;
6522 }
6523 }
6524
6525 point delta = to.xy() - from.xy();
6526
6527 auto cache = get_cache( from.z ).vehicle_obscured_cache;
6528
6529 if( delta == point_north_west ) {
6530 return cache[from.x][from.y].nw;
6531 }
6532
6533 if( delta == point_north_east ) {
6534 return cache[from.x][from.y].ne;
6535 }
6536
6537 if( delta == point_south_west ) {
6538 return cache[to.x][to.y].ne;
6539 }
6540 if( delta == point_south_east ) {
6541 return cache[to.x][to.y].nw;
6542 }
6543
6544 return false;
6545}
bool obscured_by_vehicle_rotation(const tripoint &from, const tripoint &to) const
Checks if a rotated vehicle is blocking diagonal vision, tripoints must be adjacent.
Definition: map.cpp:6511
bool nw
Definition: map.h:297
diagonal_blocks vehicle_obscured_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:336

References get_cache(), inbounds(), diagonal_blocks::nw, obscured_by_vehicle_rotation(), point_north_east, point_north_west, point_south_east, point_south_west, level_cache::vehicle_obscured_cache, tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by obscured_by_vehicle_rotation(), mattack::riotbot(), Creature::sees(), and sees().

◆ obstacle_coverage()

int map::obstacle_coverage ( const tripoint loc1,
const tripoint loc2 
) const

Returns coverage of target in relation to the observer.

Target is loc2, observer is loc1. First tile from the target is an obstacle, which has the coverage value. If there's no obstacle adjacent to the target - no coverage.

Definition at line 6209 of file map.cpp.

6210{
6211 // Can't hide if you are standing on furniture, or non-flat slowing-down terrain tile.
6212 if( furn( loc2 ).obj().id || ( move_cost( loc2 ) > 2 && !has_flag_ter( TFLAG_FLAT, loc2 ) ) ) {
6213 return 0;
6214 }
6215 const point a( std::abs( loc1.x - loc2.x ) * 2, std::abs( loc1.y - loc2.y ) * 2 );
6216 int offset = std::min( a.x, a.y ) - ( std::max( a.x, a.y ) / 2 );
6217 tripoint obstaclepos;
6218 bresenham( loc2, loc1, offset, 0, [&obstaclepos]( const tripoint & new_point ) {
6219 // Only adjacent tile between you and enemy is checked for cover.
6220 obstaclepos = new_point;
6221 return false;
6222 } );
6223 if( const auto obstacle_f = furn( obstaclepos ) ) {
6224 return obstacle_f->coverage;
6225 }
6226 if( const auto vp = veh_at( obstaclepos ) ) {
6227 if( vp->obstacle_at_part() ) {
6228 return 60;
6229 } else if( !vp->part_with_feature( VPFLAG_AISLE, true ) ) {
6230 return 45;
6231 }
6232 }
6233 return ter( obstaclepos )->coverage;
6234}
@ TFLAG_FLAT
Definition: mapdata.h:317

References a, bresenham(), map_data_common_t::coverage, furn(), has_flag_ter(), move_cost(), ter(), TFLAG_FLAT, veh_at(), VPFLAG_AISLE, tripoint::x, and tripoint::y.

Referenced by Creature::sees().

◆ obstacle_name()

std::string map::obstacle_name ( const tripoint p)

Returns the name of the obstacle at p that might be blocking movement/projectiles/etc.

Note that this only accounts for vehicles, terrain, and furniture.

Definition at line 1332 of file map.cpp.

1333{
1334 if( const cata::optional<vpart_reference> vp = veh_at( p ).obstacle_at_part() ) {
1335 return vp->info().name();
1336 }
1337 return name( p );
1338}

References name(), and veh_at().

Referenced by mattack::longswipe(), avatar_action::move(), and teleport::teleport().

◆ obstructed_by_vehicle_rotation()

bool map::obstructed_by_vehicle_rotation ( const tripoint from,
const tripoint to 
) const

Checks if a rotated vehicle is blocking diagonal movement, tripoints must be adjacent.

Definition at line 6474 of file map.cpp.

6475{
6476 if( !inbounds( from ) || !inbounds( to ) ) {
6477 return false;
6478 }
6479
6480 if( from.z != to.z ) {
6481 //Split it into two checks, one for each z level
6482 tripoint flattened = {from.xy(), to.z};
6483 if( obstructed_by_vehicle_rotation( flattened, to ) ) {
6484 return true;
6485 }
6486 }
6487
6488 point delta = to.xy() - from.xy();
6489
6490 auto cache = get_cache( from.z ).vehicle_obstructed_cache;
6491
6492 if( delta == point_north_west ) {
6493 return cache[from.x][from.y].nw;
6494 }
6495
6496 if( delta == point_north_east ) {
6497 return cache[from.x][from.y].ne;
6498 }
6499
6500 if( delta == point_south_west ) {
6501 return cache[to.x][to.y].ne;
6502 }
6503 if( delta == point_south_east ) {
6504 return cache[to.x][to.y].nw;
6505 }
6506
6507 return false;
6508}
diagonal_blocks vehicle_obstructed_cache[MAPSIZE_X][MAPSIZE_Y]
Definition: map.h:339

References get_cache(), inbounds(), diagonal_blocks::nw, obstructed_by_vehicle_rotation(), point_north_east, point_north_west, point_south_east, point_south_west, level_cache::vehicle_obstructed_cache, tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by add_splatter_trail(), mattack::boomer(), mattack::boomer_glow(), leap_actor::call(), monster::can_squeeze_to(), choose_adjacent_highlight(), clear_path(), clear_shot_reach(), explosion_handler::do_blast(), mattack::flame(), game::fling_creature(), gas_can_spread_to(), handle_action_menu(), game::knockback(), mattack::longswipe(), avatar_action::move(), npc::move_to(), obstructed_by_vehicle_rotation(), game::peek(), npc::pick_up_item(), process_fields_in_submap(), projectile_attack(), propagate_field(), mattack::ranged_pull(), player::reach_attack(), route_adjacent(), area_expander::run(), scatter_chunks(), and sinkhole_safety_roll().

◆ on_vehicle_moved()

void map::on_vehicle_moved ( int  smz)

Callback invoked when a vehicle has moved.

Definition at line 403 of file map.cpp.

404{
408 set_floor_cache_dirty( smz + 1 );
410}

References set_floor_cache_dirty(), set_outside_cache_dirty(), set_pathfinding_cache_dirty(), and set_transparency_cache_dirty().

Referenced by vehicle::act_on_map(), and displace_vehicle().

◆ open_door()

bool map::open_door ( const tripoint p,
bool  inside,
bool  check_only = false 
)

Definition at line 3861 of file map.cpp.

3862{
3863 const auto &ter = this->ter( p ).obj();
3864 const auto &furn = this->furn( p ).obj();
3865 if( ter.open ) {
3866 if( has_flag( "OPENCLOSE_INSIDE", p ) && !inside ) {
3867 return false;
3868 }
3869
3870 if( !check_only ) {
3871 sounds::sound( p, 6, sounds::sound_t::movement, _( "swish" ), true,
3872 "open_door", ter.id.str() );
3873 ter_set( p, ter.open );
3874
3875 if( ( g->u.has_trait( trait_id( "SCHIZOPHRENIC" ) ) || g->u.has_artifact_with( AEP_SCHIZO ) )
3876 && one_in( 50 ) && !ter.has_flag( "TRANSPARENT" ) ) {
3877 tripoint mp = p + -2 * g->u.pos().xy() + tripoint( 2 * p.x, 2 * p.y, p.z );
3878 g->spawn_hallucination( mp );
3879 }
3880 }
3881
3882 return true;
3883 } else if( furn.open ) {
3884 if( has_flag( "OPENCLOSE_INSIDE", p ) && !inside ) {
3885 return false;
3886 }
3887
3888 if( !check_only ) {
3889 sounds::sound( p, 6, sounds::sound_t::movement, _( "swish" ), true,
3890 "open_door", furn.id.str() );
3891 furn_set( p, furn.open );
3892 }
3893
3894 return true;
3895 } else if( const optional_vpart_position vp = veh_at( p ) ) {
3896 int openable = vp->vehicle().next_part_to_open( vp->part_index(), true );
3897 if( openable >= 0 ) {
3898 if( !check_only ) {
3899 if( !vp->vehicle().handle_potential_theft( dynamic_cast<player &>( g->u ) ) ) {
3900 return false;
3901 }
3902 vp->vehicle().open_all_at( openable );
3903 }
3904
3905 return true;
3906 }
3907
3908 return false;
3909 }
3910
3911 return false;
3912}
@ AEP_SCHIZO
Definition: enums.h:128

References _, AEP_SCHIZO, furn(), furn_set(), g, has_flag(), int_id< T >::id(), sounds::movement, int_id< T >::obj(), one_in(), sounds::sound(), string_id< T >::str(), ter(), ter_set(), veh_at(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by can_interact_at(), npc::can_open_door(), iexamine::door_peephole(), monster::move(), avatar_action::move(), npc::move_to(), open(), and rate_location().

◆ operator=() [1/2]

map & map::operator= ( const map )
delete

◆ operator=() [2/2]

map & map::operator= ( map &&  )
default

◆ partial_con_at()

partial_con * map::partial_con_at ( const tripoint p)

Definition at line 5133 of file map.cpp.

5134{
5135 if( !inbounds( p ) ) {
5136 return nullptr;
5137 }
5138 point l;
5139 submap *const current_submap = get_submap_at( p, l );
5140 auto it = current_submap->partial_constructions.find( tripoint( l, p.z ) );
5141 if( it != current_submap->partial_constructions.end() ) {
5142 return &it->second;
5143 }
5144 return nullptr;
5145}
std::map< tripoint, partial_con > partial_constructions
Definition: submap.h:248

References get_submap_at(), inbounds(), submap::partial_constructions, and tripoint::z.

Referenced by activity_handlers::build_do_turn(), can_do_activity_there(), complete_construction(), generic_multi_activity_check_requirement(), generic_multi_activity_do(), generic_multi_activity_locations(), player_activity::get_progress_message(), place_construction(), game::print_trap_info(), and iexamine::trap().

◆ partial_con_remove()

void map::partial_con_remove ( const tripoint p)

Definition at line 5147 of file map.cpp.

5148{
5149 if( !inbounds( p ) ) {
5150 return;
5151 }
5152 point l;
5153 submap *const current_submap = get_submap_at( p, l );
5154 current_submap->partial_constructions.erase( tripoint( l, p.z ) );
5155}

References get_submap_at(), inbounds(), submap::partial_constructions, and tripoint::z.

Referenced by complete_construction(), and iexamine::trap().

◆ partial_con_set()

void map::partial_con_set ( const tripoint p,
const partial_con con 
)

Definition at line 5157 of file map.cpp.

5158{
5159 if( !inbounds( p ) ) {
5160 return;
5161 }
5162 point l;
5163 submap *const current_submap = get_submap_at( p, l );
5164 if( !current_submap->partial_constructions.emplace( tripoint( l, p.z ), con ).second ) {
5165 debugmsg( "set partial con on top of terrain which already has a partial con" );
5166 }
5167}

References debugmsg, get_submap_at(), inbounds(), submap::partial_constructions, and tripoint::z.

Referenced by construction_activity(), and place_construction().

◆ passable() [1/2]

bool map::passable ( const point p) const
inline

Definition at line 632 of file map.h.

632 {
633 return passable( tripoint( p, abs_sub.z ) );
634 }

References abs_sub, passable(), and tripoint::z.

◆ passable() [2/2]

◆ passable_ter_furn()

bool map::passable_ter_furn ( const tripoint p) const

Definition at line 1830 of file map.cpp.

1831{
1832 return move_cost_ter_furn( p ) != 0;
1833}

References move_cost_ter_furn().

Referenced by impassable_ter_furn(), and avatar_action::move().

◆ pl_line_of_sight()

bool map::pl_line_of_sight ( const tripoint t,
int  max_range 
) const

Uses the map cache to tell if the player could see the given square.

pl_sees implies pl_line_of_sight Used for infrared.

Definition at line 766 of file lightmap.cpp.

767{
768 if( !inbounds( t ) ) {
769 return false;
770 }
771
772 if( max_range >= 0 && square_dist( t, g->u.pos() ) > max_range ) {
773 // Out of range!
774 return false;
775 }
776
777 const auto &map_cache = get_cache_ref( t.z );
778 // Any epsilon > 0 is fine - it means lightmap processing visited the point
779 return map_cache.seen_cache[t.x][t.y] > 0.0f ||
780 map_cache.camera_cache[t.x][t.y] > 0.0f;
781}

References g, get_cache_ref(), inbounds(), square_dist(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by get_heat_radiation(), and Character::sees_with_infrared().

◆ pl_sees()

bool map::pl_sees ( const tripoint t,
int  max_range 
) const

Whether the player character (g->u) can see the given square (local map coordinates).

This only checks the transparency of the path to the target, the light level is not checked.

Parameters
tTarget point to look at
max_rangeAll squares that are further away than this are invisible. Ignored if smaller than 0.

Definition at line 748 of file lightmap.cpp.

749{
750 if( !inbounds( t ) ) {
751 return false;
752 }
753
754 if( max_range >= 0 && square_dist( t, g->u.pos() ) > max_range ) {
755 return false; // Out of range!
756 }
757
758 const auto &map_cache = get_cache_ref( t.z );
759 const apparent_light_info a = apparent_light_helper( map_cache, t );
760 const float light_at_player = map_cache.lm[g->u.posx()][g->u.posy()].max();
761 return !a.obstructed &&
762 ( a.apparent_light >= g->u.get_vision_threshold( light_at_player ) ||
763 map_cache.sm[t.x][t.y] > 0.0 );
764}

References a, apparent_light_helper(), g, get_cache_ref(), inbounds(), square_dist(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by computer_session::action_irradiator(), sounds::process_sound_markers(), and Character::sees().

◆ place_gas_pump() [1/2]

void map::place_gas_pump ( const point p,
int  charges 
)

Definition at line 5447 of file mapgen.cpp.

5448{
5449 place_gas_pump( p, charges, one_in( 4 ) ? "diesel" : "gasoline" );
5450}
void place_gas_pump(const point &p, int charges, const std::string &fuel_type)
Definition: mapgen.cpp:5439

References one_in(), and place_gas_pump().

◆ place_gas_pump() [2/2]

void map::place_gas_pump ( const point p,
int  charges,
const std::string &  fuel_type 
)

Definition at line 5439 of file mapgen.cpp.

5440{
5441 item fuel( fuel_type, calendar::start_of_cataclysm );
5442 fuel.charges = charges;
5443 add_item( p, fuel );
5444 ter_set( p, ter_id( fuel.fuel_pump_terrain() ) );
5445}

References add_item(), item::charges, item::fuel_pump_terrain(), calendar::start_of_cataclysm, ter_id, and ter_set().

Referenced by jmapgen_gaspump::apply(), mapgen_tutorial(), and place_gas_pump().

◆ place_items() [1/2]

std::vector< item * > map::place_items ( const item_group_id loc,
int  chance,
const point p1,
const point p2,
bool  ongrass,
const time_point turn,
int  magazine = 0,
int  ammo = 0 
)
inline

Definition at line 1364 of file map.h.

1366 {
1367 return place_items( loc, chance, tripoint( p1, abs_sub.z ), tripoint( p2, abs_sub.z ), ongrass,
1368 turn, magazine, ammo );
1369 }

References abs_sub, place_items(), calendar::turn, and tripoint::z.

◆ place_items() [2/2]

std::vector< item * > map::place_items ( const item_group_id loc,
int  chance,
const tripoint p1,
const tripoint p2,
bool  ongrass,
const time_point turn,
int  magazine = 0,
int  ammo = 0 
)

Place items from item group in the rectangle f - t.

Several items may be spawned on different places. Several items may spawn at once (at one place) when the item group says so (uses item_group::items_from which may return several items at once).

Parameters
locCurrent location of items to be placed
chanceChance for more items. A chance of 100 creates 1 item all the time, otherwise it's the chance that more items will be created (place items until the random roll with that chance fails). The chance is used for the first item as well, so it may not spawn an item at all. Values <= 0 or > 100 are invalid.
p1One corner of rectangle in which to spawn items
p2Second corner of rectangle in which to spawn items
ongrassIf false the items won't spawn on flat terrain (grass, floor, ...).
turnThe birthday that the created items shall have.
magazinepercentage chance item will contain the default magazine
ammopercentage chance item will be filled with default ammo
Returns
vector containing all placed items

Definition at line 5513 of file mapgen.cpp.

5517{
5518 // TODO: implement for 3D
5519 std::vector<item *> res;
5520
5521 if( chance > 100 || chance <= 0 ) {
5522 debugmsg( "map::place_items() called with an invalid chance (%d)", chance );
5523 return res;
5524 }
5525 if( !item_group::group_is_defined( loc ) ) {
5526 // TODO: fix point types
5528 const oter_id &oid = overmap_buffer.ter( omt );
5529 debugmsg( "place_items: invalid item group '%s', om_terrain = '%s' (%s)",
5530 loc.c_str(), oid.id().c_str(), oid->get_mapgen_id().c_str() );
5531 return res;
5532 }
5533
5534 const float spawn_rate = get_option<float>( "ITEM_SPAWNRATE" );
5535 int spawn_count = roll_remainder( chance * spawn_rate / 100.0f );
5536 for( int i = 0; i < spawn_count; i++ ) {
5537 // Might contain one item or several that belong together like guns & their ammo
5538 int tries = 0;
5539 auto is_valid_terrain = [this, ongrass]( const point & p ) {
5540 auto &terrain = ter( p ).obj();
5541 return terrain.movecost == 0 &&
5542 !terrain.has_flag( "PLACE_ITEM" ) &&
5543 !ongrass &&
5544 !terrain.has_flag( "FLAT" );
5545 };
5546
5547 point p;
5548 do {
5549 p.x = rng( p1.x, p2.x );
5550 p.y = rng( p1.y, p2.y );
5551 tries++;
5552 } while( is_valid_terrain( p ) && tries < 20 );
5553 if( tries < 20 ) {
5554 auto put = put_items_from_loc( loc, tripoint( p, abs_sub.z ), turn );
5555 res.insert( res.end(), put.begin(), put.end() );
5556 }
5557 }
5558 for( auto e : res ) {
5559 if( e->is_tool() || e->is_gun() || e->is_magazine() ) {
5560 if( rng( 0, 99 ) < magazine && !e->magazine_integral() && !e->magazine_current() ) {
5561 e->put_in( item( e->magazine_default(), e->birthday() ) );
5562 }
5563 if( rng( 0, 99 ) < ammo && e->ammo_remaining() == 0 ) {
5564 e->ammo_set( e->ammo_default(), e->ammo_capacity() );
5565 }
5566 }
5567 }
5568 return res;
5569}
constexpr scale omt
Definition: coordinates.h:32
bool group_is_defined(const item_group_id &group_id)
Check whether an item group of the given id exists.
Definition: item_group.cpp:603

References abs_sub, string_id< T >::c_str(), debugmsg, get_abs_sub(), oter_t::get_mapgen_id(), item_group::group_is_defined(), int_id< T >::id(), int_id< T >::obj(), coords::omt, overmap_buffer, put_items_from_loc(), rng(), roll_remainder(), sm_to_omt_copy(), ter(), overmapbuffer::ter(), terrain, calendar::turn, point::x, tripoint::x, point::y, tripoint::y, and tripoint::z.

Referenced by jmapgen_item_group::apply(), draw_lab(), draw_mine(), draw_office_tower(), draw_slimepit(), mapgen_ants_food(), mapgen_ants_generic(), mapgen_ants_larvae(), mapgen_ants_queen(), mapgen_cavern(), mapgen_crater(), mapgen_field(), mapgen_forest(), mapgen_forest_trail_curved(), mapgen_forest_trail_four_way(), mapgen_forest_trail_straight(), mapgen_forest_trail_tee(), mapgen_highway(), mapgen_hive(), mapgen_parking_lot(), mapgen_road(), mapgen_sewer_curved(), mapgen_sewer_four_way(), mapgen_sewer_straight(), mapgen_sewer_tee(), MapExtras::mx_collegekids(), MapExtras::mx_drugdeal(), MapExtras::mx_house_spider(), MapExtras::mx_house_wasp(), MapExtras::mx_military(), MapExtras::mx_minefield(), MapExtras::mx_roadblock(), MapExtras::mx_roadworks(), MapExtras::mx_science(), MapExtras::mx_supplydrop(), place_items(), place_vending(), mission_start::ranch_nurse_8(), mission_start::ranch_scavenger_1(), mission_start::ranch_scavenger_2(), mission_start::ranch_scavenger_3(), and science_room().

◆ place_npc()

character_id map::place_npc ( const point p,
const string_id< npc_template > &  type,
bool  force = false 
)

Definition at line 5480 of file mapgen.cpp.

5481{
5482 if( !force && !get_option<bool>( "STATIC_NPC" ) ) {
5483 return character_id(); //Do not generate an npc.
5484 }
5485 shared_ptr_fast<npc> temp = make_shared_fast<npc>();
5486 temp->normalize();
5487 temp->load_npc_template( type );
5488 temp->spawn_at_precise( { abs_sub.xy() }, { p, abs_sub.z } );
5489 temp->toggle_trait( trait_NPC_STATIC_NPC );
5490 overmap_buffer.insert_npc( temp );
5491 return temp->getID();
5492}
void insert_npc(const shared_ptr_fast< npc > &who)
Adds the npc to an overmap ( based on the npcs current location ) and stores it there.
static const trait_id trait_NPC_STATIC_NPC("NPC_STATIC_NPC")
std::shared_ptr< T > shared_ptr_fast
Definition: memory_fast.h:16

References abs_sub, character_id, overmapbuffer::insert_npc(), overmap_buffer, trait_NPC_STATIC_NPC, type, tripoint::xy(), and tripoint::z.

Referenced by jmapgen_npc::apply(), mapgen_hive(), MapExtras::mx_bandits_block(), MapExtras::mx_looters(), MapExtras::mx_marloss_pilgrimage(), mission_start::ranch_nurse_9(), and place_npc_iuse::use().

◆ place_spawns()

void map::place_spawns ( const mongroup_id group,
int  chance,
const point p1,
const point p2,
float  density,
bool  individual = false,
bool  friendly = false,
const std::string &  name = "NONE",
int  mission_id = -1 
)

Definition at line 5389 of file mapgen.cpp.

5392{
5393 if( !group.is_valid() ) {
5394 // TODO: fix point types
5396 const oter_id &oid = overmap_buffer.ter( omt );
5397 debugmsg( "place_spawns: invalid mongroup '%s', om_terrain = '%s' (%s)", group.c_str(),
5398 oid.id().c_str(), oid->get_mapgen_id().c_str() );
5399 return;
5400 }
5401
5402 // Set chance to be 1 or less to guarantee spawn, else set higher than 1
5403 if( !one_in( chance ) ) {
5404 return;
5405 }
5406
5407 float spawn_density = 1.0f;
5409 spawn_density = get_option< float >( "SPAWN_ANIMAL_DENSITY" );
5410 } else {
5411 spawn_density = get_option< float >( "SPAWN_DENSITY" );
5412 }
5413
5414 float multiplier = density * spawn_density;
5415 // Only spawn 1 creature if individual flag set, else scale by density
5416 float thenum = individual ? 1 : ( multiplier * rng_float( 10.0f, 50.0f ) );
5417 int num = roll_remainder( thenum );
5418
5419 // GetResultFromGroup decrements num
5420 while( num > 0 ) {
5421 int tries = 10;
5422 point p;
5423
5424 // Pick a spot for the spawn
5425 do {
5426 p.x = rng( p1.x, p2.x );
5427 p.y = rng( p1.y, p2.y );
5428 tries--;
5429 } while( impassable( p ) && tries > 0 );
5430
5431 // Pick a monster type
5433
5434 add_spawn( spawn_details.name, spawn_details.pack_size, { p, abs_sub.z },
5435 friendly, -1, mission_id, name );
5436 }
5437}
group
Definition: sounds.h:125

References add_spawn(), string_id< T >::c_str(), debugmsg, friendly, get_abs_sub(), oter_t::get_mapgen_id(), MonsterGroupManager::GetResultFromGroup(), int_id< T >::id(), impassable(), MonsterGroupManager::is_animal(), name(), MonsterGroupResult::name, num, coords::omt, one_in(), overmap_buffer, MonsterGroupResult::pack_size, rng(), rng_float(), roll_remainder(), sm_to_omt_copy(), overmapbuffer::ter(), point::x, and point::y.

Referenced by add_monsters(), jmapgen_monster_group::apply(), create_anomaly(), draw_lab(), draw_mine(), draw_office_tower(), draw_slimepit(), draw_temple(), draw_triffid(), mapgen_road(), MapExtras::mx_collegekids(), MapExtras::mx_corpses(), MapExtras::mx_drugdeal(), MapExtras::mx_military(), MapExtras::mx_pond(), MapExtras::mx_portal(), MapExtras::mx_portal_in(), MapExtras::mx_science(), and science_room().

◆ place_toilet()

void map::place_toilet ( const point p,
int  charges = 6 * 4 
)

Definition at line 5452 of file mapgen.cpp.

5453{
5454 item water( "water", calendar::start_of_cataclysm );
5455 water.charges = charges;
5456 add_item( p, water );
5457 furn_set( p, f_toilet );
5458}

References add_item(), item::charges, f_toilet, furn_set(), and calendar::start_of_cataclysm.

Referenced by jmapgen_toilet::apply(), and mapf::formatted_set_simple().

◆ place_vending()

void map::place_vending ( const point p,
const item_group_id type,
bool  reinforced = false 
)

Definition at line 5460 of file mapgen.cpp.

5461{
5462 if( reinforced ) {
5464 place_items( type, 100, p, p, false, calendar::start_of_cataclysm );
5465 } else {
5466 if( one_in( 2 ) ) {
5467 furn_set( p, f_vending_o );
5468 for( const auto &loc : points_in_radius( { p, abs_sub.z }, 1 ) ) {
5469 if( one_in( 4 ) ) {
5470 spawn_item( loc, "glass_shard", rng( 1, 2 ) );
5471 }
5472 }
5473 } else {
5474 furn_set( p, f_vending_c );
5475 place_items( type, 100, p, p, false, calendar::start_of_cataclysm );
5476 }
5477 }
5478}
furn_id f_vending_o
Definition: mapdata.cpp:1109
furn_id f_vending_reinforced
Definition: mapdata.cpp:1132
furn_id f_vending_c
Definition: mapdata.cpp:1109

References abs_sub, f_vending_c, f_vending_o, f_vending_reinforced, furn_set(), one_in(), place_items(), points_in_radius(), rng(), spawn_item(), calendar::start_of_cataclysm, type, and tripoint::z.

Referenced by jmapgen_vending_machine::apply().

◆ player_in_field()

void map::player_in_field ( player u)
protected

Definition at line 1224 of file map_field.cpp.

1225{
1226 // A copy of the current field for reference. Do not add fields to it, use map::add_field
1227 field &curfield = get_field( u.pos() );
1228 // Are we inside?
1229 bool inside = false;
1230 // If we are in a vehicle figure out if we are inside (reduces effects usually)
1231 // and what part of the vehicle we need to deal with.
1232 if( u.in_vehicle ) {
1233 if( const optional_vpart_position vp = veh_at( u.pos() ) ) {
1234 inside = vp->is_inside();
1235 }
1236 }
1237
1238 // Iterate through all field effects on this tile.
1239 // Do not remove the field with remove_field, instead set it's intensity to 0. It will be removed
1240 // later by the field processing, which will also adjust field_count accordingly.
1241 for( auto &field_list_it : curfield ) {
1242 field_entry &cur = field_list_it.second;
1243 if( !cur.is_field_alive() ) {
1244 continue;
1245 }
1246
1247 // Do things based on what field effect we are currently in.
1248 const field_type_id ft = cur.get_field_type();
1249 if( ft == fd_web ) {
1250 // If we are in a web, can't walk in webs or are in a vehicle, get webbed maybe.
1251 // Moving through multiple webs stacks the effect.
1252 if( !u.has_trait( trait_WEB_WALKER ) && !u.in_vehicle ) {
1253 // Between 5 and 15 minus your current web level.
1254 u.add_effect( effect_webbed, 1_turns, num_bp, cur.get_field_intensity() );
1255 // It is spent.
1256 cur.set_field_intensity( 0 );
1257 continue;
1258 // If you are in a vehicle destroy the web.
1259 // It should of been destroyed when you ran over it anyway.
1260 } else if( u.in_vehicle ) {
1261 cur.set_field_intensity( 0 );
1262 continue;
1263 }
1264 }
1265 if( ft == fd_acid ) {
1266 // Assume vehicles block acid damage entirely,
1267 // you're certainly not standing in it.
1268 if( !u.in_vehicle && !u.has_trait( trait_ACIDPROOF ) ) {
1269 int total_damage = 0;
1270 total_damage += burn_body_part( u, cur, bp_foot_l, 2 );
1271 total_damage += burn_body_part( u, cur, bp_foot_r, 2 );
1272 const bool on_ground = u.is_on_ground();
1273 if( on_ground ) {
1274 // Apply the effect to the remaining body parts
1275 total_damage += burn_body_part( u, cur, bp_leg_l, 2 );
1276 total_damage += burn_body_part( u, cur, bp_leg_r, 2 );
1277 total_damage += burn_body_part( u, cur, bp_hand_l, 2 );
1278 total_damage += burn_body_part( u, cur, bp_hand_r, 2 );
1279 total_damage += burn_body_part( u, cur, bp_torso, 2 );
1280 // Less arms = less ability to keep upright
1281 if( ( !u.has_two_arms() && one_in( 4 ) ) || one_in( 2 ) ) {
1282 total_damage += burn_body_part( u, cur, bp_arm_l, 1 );
1283 total_damage += burn_body_part( u, cur, bp_arm_r, 1 );
1284 total_damage += burn_body_part( u, cur, bp_head, 1 );
1285 }
1286 }
1287
1288 if( on_ground && total_damage > 0 ) {
1289 u.add_msg_player_or_npc( m_bad, _( "The acid burns your body!" ),
1290 _( "The acid burns <npcname>s body!" ) );
1291 } else if( total_damage > 0 ) {
1292 u.add_msg_player_or_npc( m_bad, _( "The acid burns your legs and feet!" ),
1293 _( "The acid burns <npcname>s legs and feet!" ) );
1294 } else if( on_ground ) {
1295 u.add_msg_if_player( m_warning, _( "You're lying in a pool of acid" ) );
1296 } else {
1297 u.add_msg_if_player( m_warning, _( "You're standing in a pool of acid" ) );
1298 }
1299
1300 u.check_dead_state();
1301 }
1302 }
1303 if( ft == fd_sap ) {
1304 // Sap does nothing to cars.
1305 if( !u.in_vehicle ) {
1306 // Use up sap.
1308 }
1309 }
1310 if( ft == fd_sludge ) {
1311 // Sludge is on the ground, but you are above the ground when boarded on a vehicle
1312 if( !u.in_vehicle ) {
1313 u.add_msg_if_player( m_bad, _( "The sludge is thick and sticky. You struggle to pull free." ) );
1314 u.moves -= cur.get_field_intensity() * 300;
1315 cur.set_field_intensity( 0 );
1316 }
1317 }
1318 if( ft == fd_fire ) {
1319 // Heatsink or suit prevents ALL fire damage.
1321
1322 // To modify power of a field based on... whatever is relevant for the effect.
1323 int adjusted_intensity = cur.get_field_intensity();
1324 // Burn the player. Less so if you are in a car or ON a car.
1325 if( u.in_vehicle ) {
1326 if( inside ) {
1327 adjusted_intensity -= 2;
1328 } else {
1329 adjusted_intensity -= 1;
1330 }
1331 }
1332
1333 if( adjusted_intensity >= 1 ) {
1334 // Burn message by intensity
1335 static const std::array<std::string, 4> player_burn_msg = { {
1336 translate_marker( "You burn your legs and feet!" ),
1337 translate_marker( "You're burning up!" ),
1338 translate_marker( "You're set ablaze!" ),
1339 translate_marker( "Your whole body is burning!" )
1340 }
1341 };
1342 static const std::array<std::string, 4> npc_burn_msg = { {
1343 translate_marker( "<npcname> burns their legs and feet!" ),
1344 translate_marker( "<npcname> is burning up!" ),
1345 translate_marker( "<npcname> is set ablaze!" ),
1346 translate_marker( "<npcname>s whole body is burning!" )
1347 }
1348 };
1349 static const std::array<std::string, 4> player_warn_msg = { {
1350 translate_marker( "You're standing in a fire!" ),
1351 translate_marker( "You're waist-deep in a fire!" ),
1352 translate_marker( "You're surrounded by raging fire!" ),
1353 translate_marker( "You're lying in fire!" )
1354 }
1355 };
1356
1357 const int burn_min = adjusted_intensity;
1358 const int burn_max = 3 * adjusted_intensity + 3;
1359 std::list<bodypart_id> parts_burned;
1360 int msg_num = adjusted_intensity - 1;
1361 if( !u.is_on_ground() ) {
1362 switch( adjusted_intensity ) {
1363 case 3:
1364 parts_burned.push_back( bodypart_id( "hand_l" ) );
1365 parts_burned.push_back( bodypart_id( "hand_r" ) );
1366 parts_burned.push_back( bodypart_id( "arm_l" ) );
1367 parts_burned.push_back( bodypart_id( "arm_r" ) );
1368 /* fallthrough */
1369 case 2:
1370 parts_burned.push_back( bodypart_id( "torso" ) );
1371 /* fallthrough */
1372 case 1:
1373 parts_burned.push_back( bodypart_id( "foot_l" ) );
1374 parts_burned.push_back( bodypart_id( "foot_r" ) );
1375 parts_burned.push_back( bodypart_id( "leg_l" ) );
1376 parts_burned.push_back( bodypart_id( "leg_r" ) );
1377 }
1378 } else {
1379 // Lying in the fire is BAAAD news, hits every body part.
1380 msg_num = 3;
1381 const std::vector<bodypart_id> &all_parts = u.get_all_body_parts();
1382 // HACK: Skip num_bp part
1383 for( auto bp : all_parts ) {
1384 if( bp->token != num_bp ) {
1385 parts_burned.push_back( bp );
1386 }
1387 }
1388 }
1389
1390 int total_damage = 0;
1391 for( const bodypart_id part_burned : parts_burned ) {
1392 const dealt_damage_instance dealt = u.deal_damage( nullptr, part_burned,
1393 damage_instance( DT_HEAT, rng( burn_min, burn_max ) ) );
1394 total_damage += dealt.type_damage( DT_HEAT );
1395 }
1396 if( total_damage > 0 ) {
1397 u.add_msg_player_or_npc( m_bad, _( player_burn_msg[msg_num] ), _( npc_burn_msg[msg_num] ) );
1398 } else {
1399 u.add_msg_if_player( m_warning, _( player_warn_msg[msg_num] ) );
1400 }
1401 u.check_dead_state();
1402 }
1403 }
1404
1405 }
1406 if( ft == fd_tear_gas ) {
1407 // Tear gas will both give you teargas disease and/or blind you.
1408 if( ( cur.get_field_intensity() > 1 || !one_in( 3 ) ) && ( !inside || one_in( 3 ) ) ) {
1409 u.add_env_effect( effect_teargas, bp_mouth, 5, 20_seconds );
1410 }
1411 if( cur.get_field_intensity() > 1 && ( !inside || one_in( 3 ) ) ) {
1412 u.add_env_effect( effect_blind, bp_eyes, cur.get_field_intensity() * 2, 10_seconds );
1413 }
1414 }
1415 if( ft == fd_fungal_haze ) {
1416 if( !u.has_trait( trait_M_IMMUNE ) && ( !inside || one_in( 4 ) ) ) {
1417 u.add_env_effect( effect_fungus, bp_mouth, 4, 10_minutes, num_bp );
1418 u.add_env_effect( effect_fungus, bp_eyes, 4, 10_minutes, num_bp );
1419 }
1420 }
1421 if( ft == fd_dazzling ) {
1422 if( cur.get_field_intensity() > 1 || one_in( 5 ) ) {
1423 u.add_env_effect( effect_blind, bp_eyes, 10, 10_turns );
1424 } else {
1425 u.add_env_effect( effect_blind, bp_eyes, 2, 2_turns );
1426 }
1427 }
1428
1429 if( cur.extra_radiation_min() > 0 ) {
1430 // Get irradiated by the nuclear fallout.
1431 const float rads = rng( cur.extra_radiation_min() + 1,
1432 cur.extra_radiation_max() * ( cur.extra_radiation_max() + 1 ) );
1433 const bool rad_proof = !u.irradiate( rads );
1434 // TODO: Reduce damage for rad resistant?
1435 if( cur.radiation_hurt_damage_min() > 0 && !rad_proof ) {
1437 u.hurtall( rng( cur.radiation_hurt_damage_min(), cur.radiation_hurt_damage_max() ), nullptr );
1438 }
1439 }
1440 if( ft == fd_flame_burst ) {
1441 // A burst of flame? Only hits the legs and torso.
1442 if( !inside ) {
1443 // Fireballs can't touch you inside a car.
1444 // Heatsink or suit stops fire.
1445 if( !u.has_active_bionic( bio_heatsink ) &&
1447 u.add_msg_player_or_npc( m_bad, _( "You're torched by flames!" ),
1448 _( "<npcname> is torched by flames!" ) );
1449 u.deal_damage( nullptr, bodypart_id( "leg_l" ), damage_instance( DT_HEAT, rng( 2, 6 ) ) );
1450 u.deal_damage( nullptr, bodypart_id( "leg_r" ), damage_instance( DT_HEAT, rng( 2, 6 ) ) );
1451 u.deal_damage( nullptr, bodypart_id( "torso" ), damage_instance( DT_HEAT, rng( 4, 9 ) ) );
1452 u.check_dead_state();
1453 } else {
1454 u.add_msg_player_or_npc( _( "These flames do not burn you." ),
1455 _( "Those flames do not burn <npcname>." ) );
1456 }
1457 }
1458 }
1459 if( ft == fd_electricity ) {
1460 // Small universal damage based on intensity, only if not electroproofed.
1461 if( !u.is_elec_immune() ) {
1462 int total_damage = 0;
1463 for( size_t i = 0; i < num_hp_parts; i++ ) {
1464 const bodypart_id bp = convert_bp( player::hp_to_bp( static_cast<hp_part>( i ) ) ).id();
1465 const int dmg = rng( 1, cur.get_field_intensity() );
1466 total_damage += u.deal_damage( nullptr, bp, damage_instance( DT_ELECTRIC, dmg ) ).total_damage();
1467 }
1468
1469 if( total_damage > 0 ) {
1471 u.add_msg_player_or_npc( m_bad, _( "You're painfully electrocuted!" ),
1472 _( "<npcname> is shocked!" ) );
1473 u.mod_pain( total_damage / 2 );
1474 } else {
1475 u.add_msg_player_or_npc( m_bad, _( "You're shocked!" ), _( "<npcname> is shocked!" ) );
1476 }
1477 } else {
1478 u.add_msg_player_or_npc( _( "The electric cloud doesn't affect you." ),
1479 _( "The electric cloud doesn't seem to affect <npcname>." ) );
1480 }
1481 }
1482 }
1483 if( ft == fd_fatigue ) {
1484 // Assume the rift is on the ground for now to prevent issues with the player being unable access vehicle controls on the same tile due to teleportation.
1485 if( !u.in_vehicle ) {
1486 // Teleports you... somewhere.
1487 if( rng( 0, 2 ) < cur.get_field_intensity() && u.is_player() ) {
1488 add_msg( m_bad, _( "You're violently teleported!" ) );
1489 u.hurtall( cur.get_field_intensity(), nullptr );
1490 teleport::teleport( u );
1491 }
1492 }
1493 }
1494 // Why do these get removed???
1495 // Stepping on a shock vent shuts it down.
1496 if( ft == fd_shock_vent || ft == fd_acid_vent ) {
1497 cur.set_field_intensity( 0 );
1498 }
1499 if( ft == fd_bees ) {
1500 // Player is immune to bees while underwater.
1501 if( !u.is_underwater() ) {
1502 const int intensity = cur.get_field_intensity();
1503 // Bees will try to sting you in random body parts, up to 8 times.
1504 for( int i = 0; i < rng( 1, 7 ); i++ ) {
1506 int sum_cover = 0;
1507 for( const item &i : u.worn ) {
1508 if( i.covers( bp->token ) ) {
1509 sum_cover += i.get_coverage();
1510 }
1511 }
1512 // Get stung if [clothing on a body part isn't thick enough (like t-shirt) OR clothing covers less than 100% of body part]
1513 // AND clothing on affected body part has low environmental protection value
1514 if( ( u.get_armor_cut( bp ) <= 1 || ( sum_cover < 100 && x_in_y( 100 - sum_cover, 100 ) ) ) &&
1515 u.add_env_effect( effect_stung, bp->token, intensity, 9_minutes ) ) {
1516 u.add_msg_if_player( m_bad, _( "The bees sting you in %s!" ),
1517 body_part_name_accusative( bp->token ) );
1518 }
1519 }
1520 }
1521 }
1522 if( ft == fd_incendiary ) {
1523 // Mysterious incendiary substance melts you horribly.
1524 if( u.has_trait( trait_M_SKIN2 ) ||
1525 u.has_trait( trait_M_SKIN3 ) ||
1526 cur.get_field_intensity() == 1 ) {
1527 u.add_msg_player_or_npc( m_bad, _( "The incendiary burns you!" ),
1528 _( "The incendiary burns <npcname>!" ) );
1529 u.hurtall( rng( 1, 3 ), nullptr );
1530 } else {
1531 u.add_msg_player_or_npc( m_bad, _( "The incendiary melts into your skin!" ),
1532 _( "The incendiary melts into <npcname>s skin!" ) );
1533 u.add_effect( effect_onfire, 8_turns, bp_torso );
1534 u.hurtall( rng( 2, 6 ), nullptr );
1535 }
1536 }
1537 // Both gases are unhealthy and become deadly if you cross a related threshold.
1538 if( ft == fd_fungicidal_gas || ft == fd_insecticidal_gas ) {
1539 // The gas won't harm you inside a vehicle.
1540 if( !inside ) {
1541 // Full body suits protect you from the effects of the gas.
1542 if( !( u.worn_with_flag( flag_GAS_PROOF ) && u.get_env_resist( bodypart_id( "mouth" ) ) >= 15 &&
1543 u.get_env_resist( bodypart_id( "eyes" ) ) >= 15 ) ) {
1544 const int intensity = cur.get_field_intensity();
1545 bool inhaled = u.add_env_effect( effect_poison, bp_mouth, 5, intensity * 1_minutes );
1547 ( ft == fd_insecticidal_gas && ( u.get_highest_category() == "INSECT" ||
1548 u.get_highest_category() == "SPIDER" ) ) ) {
1549 inhaled |= u.add_env_effect( effect_badpoison, bp_mouth, 5, intensity * 1_minutes );
1550 u.hurtall( rng( intensity, intensity * 2 ), nullptr );
1551 u.add_msg_if_player( m_bad, _( "The %s burns your skin." ), cur.name() );
1552 }
1553
1554 if( inhaled ) {
1555 u.add_msg_if_player( m_bad, _( "The %s makes you feel sick." ), cur.name() );
1556 }
1557 }
1558 }
1559 }
1560 }
1561}
std::string body_part_name_accusative(body_part bp, int number)
Returns the matching accusative name of the body_part token, i.e.
Definition: bodypart.cpp:329
@ bp_foot_l
Definition: bodypart.h:50
@ bp_leg_r
Definition: bodypart.h:49
@ bp_eyes
Definition: bodypart.h:42
@ bp_hand_l
Definition: bodypart.h:46
@ bp_arm_l
Definition: bodypart.h:44
@ bp_leg_l
Definition: bodypart.h:48
@ bp_hand_r
Definition: bodypart.h:47
@ bp_head
Definition: bodypart.h:41
@ bp_torso
Definition: bodypart.h:40
@ bp_mouth
Definition: bodypart.h:43
@ bp_foot_r
Definition: bodypart.h:51
@ bp_arm_r
Definition: bodypart.h:45
bool is_elec_immune() const override
Returns true is the player is protected from electric shocks.
Definition: character.cpp:6191
bool worn_with_flag(const std::string &flag, const bodypart_id &bp=bodypart_str_id::NULL_ID()) const
Returns true if the player is wearing an item with the given flag.
Definition: character.cpp:3270
bool is_on_ground() const override
Returns true if the player is knocked over or has broken legs.
Definition: character.cpp:962
std::list< item > worn
Definition: character.h:1507
int get_env_resist(bodypart_id bp) const override
Returns overall env_resist on a body_part.
Definition: character.cpp:7133
bool has_two_arms() const
Returns true if the player has two functioning arms.
Definition: character.cpp:1280
int get_armor_cut(bodypart_id bp) const override
Returns overall cutting resistance for the body_part.
Definition: character.cpp:6976
std::string get_highest_category() const
Returns the highest mutation category.
Definition: character.cpp:7970
bool is_wearing(const item &itm) const
Returns true if the player is wearing the item.
Definition: character.cpp:3240
void hurtall(int dam, Creature *source, bool disturb=true)
Hurts all body parts for dam, no armor reduction.
Definition: character.cpp:8657
bool has_trait(const trait_id &b) const override
Returns true if the player has the entered trait.
Definition: mutation.cpp:103
bool irradiate(float rads, bool bypass=false)
Handles mitigation and application of radiation.
Definition: suffer.cpp:1529
static body_part hp_to_bp(hp_part hpart)
Converts an hp_part to a body_part.
Definition: character.cpp:6589
bool has_active_bionic(const bionic_id &b) const
Returns true if the player has the entered bionic id and it is powered on.
Definition: character.cpp:1887
bodypart_id get_random_body_part(bool main=false) const
Definition: creature.cpp:1620
virtual bool is_underwater() const
Definition: creature.cpp:174
std::vector< bodypart_id > get_all_body_parts(bool only_main=false) const
Returns body parts this creature have.
Definition: creature.cpp:1627
int extra_radiation_min() const
Definition: field.cpp:14
int radiation_hurt_damage_min() const
Definition: field.cpp:24
std::string radiation_hurt_message() const
Definition: field.cpp:34
int extra_radiation_max() const
Definition: field.cpp:19
std::string name() const
Definition: field.h:84
int radiation_hurt_damage_max() const
Definition: field.cpp:29
int get_coverage() const
Returns the relative coverage that this item has when worn.
Definition: item.cpp:5771
bool covers(body_part bp) const
Whether this item (when worn) covers the given body part.
Definition: item.cpp:743
int burn_body_part(player &u, field_entry &cur, body_part bp, int scale)
Definition: map_field.cpp:124
void mod_pain(int npain) override
Modifies a pain value by player traits before passing it to Creature::mod_pain()
Definition: player.cpp:945
void add_msg_if_player(const std::string &msg) const override
Definition: player.cpp:3973
bool is_player() const override
Definition: player.h:105
field_type_id fd_bees
Definition: field_type.cpp:371
static const trait_id trait_M_SKIN3("M_SKIN3")
static const std::string flag_GAS_PROOF("GAS_PROOF")
static const efftype_id effect_fungus("fungus")
static const trait_id trait_ELECTRORECEPTORS("ELECTRORECEPTORS")
static const trait_id trait_THRESH_MARLOSS("THRESH_MARLOSS")
static const trait_id trait_WEB_WALKER("WEB_WALKER")
static const efftype_id effect_badpoison("badpoison")
static const itype_id itype_rm13_armor_on("rm13_armor_on")
static const trait_id trait_M_IMMUNE("M_IMMUNE")
static const trait_id trait_THRESH_MYCUS("THRESH_MYCUS")
static const trait_id trait_ACIDPROOF("ACIDPROOF")
static const trait_id trait_M_SKIN2("M_SKIN2")
static const efftype_id effect_stung("stung")
static const efftype_id effect_poison("poison")
static const efftype_id effect_teargas("teargas")
static const bionic_id bio_heatsink("bio_heatsink")
hp_part
Definition: pldata.h:32
@ num_hp_parts
Definition: pldata.h:39
int type_damage(damage_type dt) const
Definition: damage.cpp:172
#define translate_marker(x)
Marks a string literal to be extracted for translation.
Definition: translations.h:30

References _, Creature::add_effect(), Creature::add_env_effect(), add_msg(), player::add_msg_if_player(), player::add_msg_player_or_npc(), bio_heatsink, body_part_name_accusative(), bp_arm_l, bp_arm_r, bp_eyes, bp_foot_l, bp_foot_r, bp_hand_l, bp_hand_r, bp_head, bp_leg_l, bp_leg_r, bp_mouth, bp_torso, burn_body_part(), Creature::check_dead_state(), convert_bp(), item::covers(), Character::deal_damage(), DT_ELECTRIC, DT_HEAT, effect_badpoison, effect_blind, effect_fungus, effect_onfire, effect_poison, effect_stung, effect_teargas, effect_webbed, field_entry::extra_radiation_max(), field_entry::extra_radiation_min(), fd_acid, fd_acid_vent, fd_bees, fd_dazzling, fd_electricity, fd_fatigue, fd_fire, fd_flame_burst, fd_fungal_haze, fd_fungicidal_gas, fd_incendiary, fd_insecticidal_gas, fd_sap, fd_shock_vent, fd_sludge, fd_tear_gas, fd_web, flag_GAS_PROOF(), Creature::get_all_body_parts(), Character::get_armor_cut(), item::get_coverage(), Character::get_env_resist(), get_field(), field_entry::get_field_intensity(), field_entry::get_field_type(), Character::get_highest_category(), Creature::get_random_body_part(), Character::has_active_bionic(), Character::has_trait(), Character::has_two_arms(), Character::hp_to_bp(), Character::hurtall(), string_id< T >::id(), Character::in_vehicle, Character::irradiate(), Character::is_elec_immune(), field_entry::is_field_alive(), Character::is_on_ground(), player::is_player(), Creature::is_underwater(), Character::is_wearing(), itype_rm13_armor_on, m_bad, m_warning, player::mod_pain(), Creature::moves, field_entry::name(), num_bp, num_hp_parts, one_in(), Character::pos(), field_entry::radiation_hurt_damage_max(), field_entry::radiation_hurt_damage_min(), field_entry::radiation_hurt_message(), rng(), field_entry::set_field_intensity(), teleport::teleport(), dealt_damage_instance::total_damage(), trait_ACIDPROOF, trait_ELECTRORECEPTORS, trait_M_IMMUNE, trait_M_SKIN2, trait_M_SKIN3, trait_THRESH_MARLOSS, trait_THRESH_MYCUS, trait_WEB_WALKER, translate_marker, dealt_damage_instance::type_damage(), veh_at(), Character::worn, Character::worn_with_flag(), and x_in_y().

Referenced by creature_in_field().

◆ point_within_camp()

bool map::point_within_camp ( const tripoint point_check) const

Definition at line 5545 of file map.cpp.

5546{
5547 // TODO: fix point types
5548 const tripoint_abs_omt omt_check( ms_to_omt_copy( point_check ) );
5549 const point_abs_omt p = omt_check.xy();
5550 for( int x2 = -2; x2 < 2; x2++ ) {
5551 for( int y2 = -2; y2 < 2; y2++ ) {
5552 if( cata::optional<basecamp *> bcp = overmap_buffer.find_camp( p + point( x2, y2 ) ) ) {
5553 return ( *bcp )->camp_omt_pos().z() == point_check.z;
5554 }
5555 }
5556 }
5557 return false;
5558}
constexpr auto xy() const
Definition: coordinates.h:130
cata::optional< basecamp * > find_camp(const point_abs_omt &p)

References overmapbuffer::find_camp(), ms_to_omt_copy(), overmap_buffer, coords::coord_point< Point, Origin, Scale >::xy(), and tripoint::z.

Referenced by npc::worker_downtime().

◆ points_in_radius()

tripoint_range< tripoint > map::points_in_radius ( const tripoint center,
size_t  radius,
size_t  radiusz = 0 
) const

Definition at line 8593 of file map.cpp.

8595{
8596 const tripoint min( std::max<int>( 0, center.x - radius ), std::max<int>( 0, center.y - radius ),
8597 clamp<int>( center.z - radiusz, -OVERMAP_DEPTH, OVERMAP_HEIGHT ) );
8598 const tripoint max( std::min<int>( SEEX * my_MAPSIZE - 1, center.x + radius ),
8599 std::min<int>( SEEX * my_MAPSIZE - 1, center.y + radius ), clamp<int>( center.z + radiusz,
8601 return tripoint_range<tripoint>( min, max );
8602}

References center, my_MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, and SEEX.

Referenced by computer_session::action_blood_anal(), computer_session::action_conveyor(), computer_session::action_data_anal(), computer_session::action_deactivate_shock_vent(), computer_session::action_extract_rad_source(), computer_session::action_geiger(), computer_session::action_irradiator(), computer_session::action_sample(), Character::activate_bionic(), add_splash(), Character::adjacent_tile(), npc::alt_attack(), are_requirements_nearby(), npc::assess_danger(), bash_furn_success(), Character::blossoms(), build_vision_transparency_cache(), activity_handlers::butcher_finish(), leap_actor::call(), can_do_activity_there(), iexamine::cardreader(), iexamine::cardreader_foodplace(), deploy_tent_actor::check_intact(), choose_adjacent_highlight(), activity_handlers::chop_tree_finish(), climb_difficulty(), collapse_at(), collapse_check(), complete_construction(), consider_butchery(), game::control_vehicle(), displace_water(), enumerate_objects_around_point(), Character::env_surgery_bonus(), ranged::execute_shaped_attack(), ranged::expected_coverage(), computer_session::failure_destroy_blood(), computer_session::failure_destroy_data(), computer_session::failure_manhacks(), computer_session::failure_secubots(), computer_session::failure_shutdown(), find_empty_spot_nearby(), find_furnitures_with_flag_in_radius(), find_potential_computer_point(), hacking_activity_actor::finish(), activity_handlers::forage_finish(), game::forced_door_closing(), basecamp::form_crafting_inventory(), inventory::form_from_map(), generic_multi_activity_check_requirement(), generic_multi_activity_locations(), get_creatures_in_radius(), get_heat_radiation(), liquid_handler::get_liquid_target(), zone_manager::get_point_set_loot(), iexamine::getGasPumpByNumber(), iexamine::getNearFilledGasTank(), getNearPumpCount(), npc::go_to_omt_destination(), handle_action_menu(), has_adjacent_furniture_with(), has_nearby_chair(), has_nearby_fire(), has_nearby_table(), has_neighbor(), is_cornerfloor(), is_wall_adjacent(), game::monmove(), npc::move_away_from(), MapExtras::mx_casings(), MapExtras::mx_corpses(), MapExtras::mx_looters(), MapExtras::mx_marloss_pilgrimage(), MapExtras::mx_mayhem(), MapExtras::mx_minefield(), MapExtras::mx_portal(), MapExtras::mx_portal_in(), iexamine::nanofab(), iuse::note_bionics(), trap::on_disarmed(), operator_present(), tutorial_game::per_turn(), photo_def_for_camera_point(), place_construction(), game::place_critter_around(), mission_start::place_deposit_box(), game::place_player(), place_vending(), player_on_couch(), iexamine::portable_structure(), tutorial_game::post_action(), game::process_artifact(), process_fields_in_submap(), propagate_suspension_check(), avatar_action::ramp_move(), reachable_flood_steps(), editmap::recalc_target(), requirements_map(), mattack::riotbot(), route_adjacent(), mattack::shriek_stun(), spawn_monsters_submap(), mdeath::splatter(), Character::spores(), fungal_effects::spread_fungus(), spread_gas(), monster::stumble(), activity_handlers::travel_do_turn(), explosion_iuse::trigger_explosion(), try_remove_grab(), turnOnSelectedPump(), place_trap_actor::use(), deploy_tent_actor::use(), use_amount(), game::vertical_move(), and npc::worker_downtime().

◆ points_in_rectangle()

tripoint_range< tripoint > map::points_in_rectangle ( const tripoint from,
const tripoint to 
) const

Definition at line 8583 of file map.cpp.

8584{
8585 const tripoint min( std::max( 0, std::min( from.x, to.x ) ), std::max( 0, std::min( from.y,
8586 to.y ) ), std::max( -OVERMAP_DEPTH, std::min( from.z, to.z ) ) );
8587 const tripoint max( std::min( SEEX * my_MAPSIZE - 1, std::max( from.x, to.x ) ),
8588 std::min( SEEX * my_MAPSIZE - 1, std::max( from.y, to.y ) ), std::min( OVERMAP_HEIGHT,
8589 std::max( from.z, to.z ) ) );
8590 return tripoint_range<tripoint>( min, max );
8591}

References my_MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, SEEX, tripoint::x, tripoint::y, and tripoint::z.

Referenced by apply_camp_ownership(), apply_faction_ownership(), debug_menu::debug(), draw_lab(), farm_action(), game::find_or_make_stairs(), generate_lightmap(), jmapgen_setmap::has_vehicle_collision(), avatar_action::move(), MapExtras::mx_portal(), om_cutdown_trees(), om_harvest_furn(), om_harvest_itm(), and om_harvest_ter().

◆ points_on_zlevel() [1/2]

◆ points_on_zlevel() [2/2]

tripoint_range< tripoint > map::points_on_zlevel ( int  z) const

Same as above, but uses the specific z-level.

If the given z-level is invalid, it returns an empty range.

Definition at line 8604 of file map.cpp.

8605{
8606 if( z < -OVERMAP_DEPTH || z > OVERMAP_HEIGHT ) {
8607 // TODO: need a default constructor that creates an empty range.
8609 }
8611 tripoint( 0, 0, z ), tripoint( SEEX * my_MAPSIZE - 1, SEEY * my_MAPSIZE - 1, z ) );
8612}

References my_MAPSIZE, OVERMAP_HEIGHT, SEEX, SEEY, tripoint_above, and tripoint_zero.

◆ process_falling()

void map::process_falling ( )

Invoked drop_everything on cached dirty tiles.

Definition at line 2271 of file map.cpp.

2272{
2273 if( !zlevels ) {
2274 support_cache_dirty.clear();
2275 return;
2276 }
2277
2278 if( !support_cache_dirty.empty() ) {
2279 add_msg( m_debug, "Checking %d tiles for falling objects",
2280 support_cache_dirty.size() );
2281 // We want the cache to stay constant, but falling can change it
2282 std::set<tripoint> last_cache = std::move( support_cache_dirty );
2283 support_cache_dirty.clear();
2284 for( const tripoint &p : last_cache ) {
2285 drop_everything( p );
2286 }
2287 }
2288}
void drop_everything(const tripoint &p)
Handles map objects of given type (not creatures) falling down.
Definition: map.cpp:2042
std::set< tripoint > support_cache_dirty
Definition: map.h:1549

References add_msg(), drop_everything(), m_debug, avatar_action::move(), support_cache_dirty, and zlevels.

Referenced by game::do_turn().

◆ process_fields()

void map::process_fields ( )

Definition at line 141 of file map_field.cpp.

142{
143 const int minz = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
144 const int maxz = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
145 for( int z = minz; z <= maxz; z++ ) {
146 auto &field_cache = get_cache( z ).field_cache;
147 for( int x = 0; x < my_MAPSIZE; x++ ) {
148 for( int y = 0; y < my_MAPSIZE; y++ ) {
149 if( field_cache[ x + y * MAPSIZE ] ) {
150 submap *const current_submap = get_submap_at_grid( { x, y, z } );
151 process_fields_in_submap( current_submap, tripoint( x, y, z ) );
152 }
153 }
154 }
155
156 // no need to invalidate "transparency" and "seen" caches here
157 // they are invalidated point by point inside the `process_fields_in_submap`
158 }
159}
void process_fields_in_submap(submap *current_submap, const tripoint &submap_pos)
Definition: map_field.cpp:396

References abs_sub, level_cache::field_cache, get_cache(), get_submap_at_grid(), MAPSIZE, my_MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, process_fields_in_submap(), tripoint::z, and zlevels.

Referenced by game::do_turn().

◆ process_fields_in_submap()

void map::process_fields_in_submap ( submap current_submap,
const tripoint submap_pos 
)

Definition at line 396 of file map_field.cpp.

398{
399 scent_block sblk( submap, g->scent );
400
401 // Holds m.field_at(x,y).find_field(fd_some_field) type returns.
402 // Just to avoid typing that long string for a temp value.
403 field_entry *tmpfld = nullptr;
404
405 map &here = get_map();
406 tripoint thep;
407 thep.z = submap.z;
408
409 // Initialize the map tile wrapper
410 maptile map_tile( current_submap, point_zero );
411 int &locx = map_tile.pos_.x;
412 int &locy = map_tile.pos_.y;
413 const point sm_offset( submap.x * SEEX, submap.y * SEEY );
414
415 // Loop through all tiles in this submap indicated by current_submap
416 for( locx = 0; locx < SEEX; locx++ ) {
417 for( locy = 0; locy < SEEY; locy++ ) {
418 // Get a reference to the field variable from the submap;
419 // contains all the pointers to the real field effects.
420 field &curfield = current_submap->get_field( { static_cast<int>( locx ), static_cast<int>( locy ) } );
421
422 // when displayed_field_type == fd_null it means that `curfield` has no fields inside
423 // avoids instantiating (relatively) expensive map iterator
424 if( !curfield.displayed_field_type() ) {
425 continue;
426 }
427
428 // This is a translation from local coordinates to submap coordinates.
429 // All submaps are in one long 1d array.
430 thep.x = locx + sm_offset.x;
431 thep.y = locy + sm_offset.y;
432 // A const reference to the tripoint above, so that the code below doesn't accidentally change it
433 const tripoint &p = thep;
434
435 // This should be true only when the field in the current tile changes transparency state,
436 // More correctly: not just when the field is opaque, but when it changes state
437 // to a more/less transparent one
438 bool dirty_transparency_cache = false;
439
440 for( auto it = curfield.begin(); it != curfield.end(); ) {
441 // Iterating through all field effects in the submap's field.
442 field_entry &cur = it->second;
443
444 // Holds cur.get_field_type() as that is what the old system used before rewrite.
445 field_type_id cur_fd_type_id = cur.get_field_type();
446
447 // The field might have been killed by processing a neighbor field
448 if( !cur.is_field_alive() ) {
449 if( !cur_fd_type_id->get_transparent( cur.get_field_intensity() - 1 ) ) {
450 dirty_transparency_cache = true;
451 }
452 --current_submap->field_count;
453 curfield.remove_field( it++ );
454 continue;
455 }
456
457 // Again, legacy support in the event someone Mods set_field_intensity to allow more values.
458 if( cur.get_field_intensity() > 3 || cur.get_field_intensity() < 1 ) {
459 // TODO: Remove this eventually as we would suppoort more than 3 field intensity levels
460 debugmsg( "Whoooooa intensity of %d", cur.get_field_intensity() );
461 }
462
463 dirty_transparency_cache |= cur_fd_type_id->dirty_transparency_cache;
464
465 // Don't process "newborn" fields. This gives the player time to run if they need to.
466 if( cur.get_field_age() == 0_turns ) {
467 cur_fd_type_id = fd_null;
468 }
469
470 const field_type &cur_fd_type = *cur_fd_type_id;
471
472 // Upgrade field intensity
473 if( cur.intensity_upgrade_chance() > 0 &&
475 cur.intensity_upgrade_duration() > 0_turns &&
478 }
479
480 int part;
481 const ter_t &ter = map_tile.get_ter_t();
482 // Dissipate faster in water
483 if( ter.has_flag( TFLAG_SWIMMABLE ) ) {
485 }
486 if( cur_fd_type_id == fd_acid ) {
487 // Try to fall by a z-level
488 if( zlevels && p.z > -OVERMAP_DEPTH ) {
489 tripoint dst{ p.xy(), p.z - 1 };
490 if( valid_move( p, dst, true, true ) ) {
491 field_entry *acid_there = field_at( dst ).find_field( fd_acid );
492 if( acid_there == nullptr ) {
494 } else {
495 // Math can be a bit off,
496 // but "boiling" falling acid can be allowed to be stronger
497 // than acid that just lies there
498 const int sum_intensity = cur.get_field_intensity() + acid_there->get_field_intensity();
499 const int new_intensity = std::min( 3, sum_intensity );
500 // No way to get precise elapsed time, let's always reset
501 // Allow falling acid to last longer than regular acid to show it off
502 const time_duration new_age = -1_minutes * ( sum_intensity - new_intensity );
503 acid_there->set_field_intensity( new_intensity );
504 acid_there->set_field_age( new_age );
505 }
506
507 // Set ourselves up for removal
508 cur.set_field_intensity( 0 );
509 }
510 }
511 // TODO: Allow spreading to the sides if age < 0 && intensity == 3
512 }
513 if( cur_fd_type.apply_slime_factor > 0 ) {
514 sblk.apply_slime( p, cur.get_field_intensity() * cur_fd_type.apply_slime_factor );
515 }
516 if( cur_fd_type_id == fd_fire ) {
517 cur.set_field_age( std::max( -24_hours, cur.get_field_age() ) );
518 // Entire objects for ter/frn for flags
519 const ter_t &ter = map_tile.get_ter_t();
520 const furn_t &frn = map_tile.get_furn_t();
521
522 // We've got ter/furn cached, so let's use that
523 const bool is_sealed = ter_furn_has_flag( ter, frn, TFLAG_SEALED ) &&
525 // Consumed items count
526 int consumed = 0;
527 // How much time to add to the fire's life due to burned items/terrain/furniture
528 time_duration time_added = 0_turns;
529 // Checks if the fire can spread
530 const bool can_spread = !ter_furn_has_flag( ter, frn, TFLAG_FIRE_CONTAINER );
531 const bool no_floor = ter.has_flag( TFLAG_NO_FLOOR );
532 // If the flames are in furniture with fire_container flag like brazier or oven,
533 // they're fully contained, so skip consuming terrain
534 const bool can_burn = !no_floor && can_spread &&
535 ( check_flammable( ter ) || check_flammable( frn ) );
536 // The huge indent below should probably be somehow moved away from here
537 // without forcing the function to use i_at( p ) for fires without items
538 if( !is_sealed && map_tile.get_item_count() > 0 ) {
539 map_stack items_here = i_at( p );
540 std::vector<item> new_content;
541 for( auto explosive = items_here.begin(); explosive != items_here.end(); ) {
542 if( explosive->will_explode_in_fire() ) {
543 // We need to make a copy because the iterator validity is not predictable
544 item copy = *explosive;
545 explosive = items_here.erase( explosive );
546 if( copy.detonate( p, new_content ) ) {
547 // Need to restart, iterators may not be valid
548 explosive = items_here.begin();
549 }
550 } else {
551 ++explosive;
552 }
553 }
554
555 fire_data frd( cur.get_field_intensity(), !can_spread );
556 // The highest # of items this fire can remove in one turn
557 int max_consume = cur.get_field_intensity() * 2;
558
559 for( auto fuel = items_here.begin(); fuel != items_here.end() && consumed < max_consume; ) {
560 // `item::burn` modifies the charges in order to simulate some of them getting
561 // destroyed by the fire, this changes the item weight, but may not actually
562 // destroy it. We need to spawn products anyway.
563 const units::mass old_weight = fuel->weight( false );
564 bool destroyed = fuel->burn( frd );
565 // If the item is considered destroyed, it may have negative charge count,
566 // see `item::burn?. This in turn means `item::weight` returns a negative value,
567 // which we can not use, so only call `weight` when it's still an existing item.
568 const units::mass new_weight = destroyed ? 0_gram : fuel->weight( false );
569 if( old_weight != new_weight ) {
570 create_burnproducts( p, *fuel, old_weight - new_weight );
571 }
572
573 if( destroyed ) {
574 // If we decided the item was destroyed by fire, remove it.
575 // But remember its contents, except for irremovable mods, if any
576 const std::list<item *> content_list = fuel->contents.all_items_top();
577 for( item *it : content_list ) {
578 if( !it->is_irremovable() ) {
579 new_content.push_back( item( *it ) );
580 }
581 }
582 fuel = items_here.erase( fuel );
583 consumed++;
584 } else {
585 ++fuel;
586 }
587 }
588
589 spawn_items( p, new_content );
590 time_added = 1_turns * roll_remainder( frd.fuel_produced );
591 }
592
593 // Get the part of the vehicle in the fire (_internal skips the boundary check)
594 vehicle *veh = veh_at_internal( p, part );
595 if( veh != nullptr ) {
596 veh->damage( part, cur.get_field_intensity() * 10, DT_HEAT, true );
597 // Damage the vehicle in the fire.
598 }
599 if( can_burn ) {
600 if( ter.has_flag( TFLAG_SWIMMABLE ) ) {
601 // Flames die quickly on water
602 cur.set_field_age( cur.get_field_age() + 4_minutes );
603 }
604
605 // Consume the terrain we're on
606 if( ter_furn_has_flag( ter, frn, TFLAG_FLAMMABLE ) ) {
607 // The fire feeds on the ground itself until max intensity.
608 time_added += 1_turns * ( 5 - cur.get_field_intensity() );
609 if( cur.get_field_intensity() > 1 &&
610 one_in( 200 - cur.get_field_intensity() * 50 ) ) {
611 destroy( p, false );
612 }
613
614 } else if( ter_furn_has_flag( ter, frn, TFLAG_FLAMMABLE_HARD ) &&
615 one_in( 3 ) ) {
616 // The fire feeds on the ground itself until max intensity.
617 time_added += 1_turns * ( 4 - cur.get_field_intensity() );
618 if( cur.get_field_intensity() > 1 &&
619 one_in( 200 - cur.get_field_intensity() * 50 ) ) {
620 destroy( p, false );
621 }
622
623 } else if( ter.has_flag( TFLAG_FLAMMABLE_ASH ) ) {
624 // The fire feeds on the ground itself until max intensity.
625 time_added += 1_turns * ( 5 - cur.get_field_intensity() );
626 if( cur.get_field_intensity() > 1 &&
627 one_in( 200 - cur.get_field_intensity() * 50 ) ) {
628 if( p.z > 0 ) {
629 // We're in the air
630 ter_set( p, t_open_air );
631 } else {
632 ter_set( p, t_dirt );
633 }
634 }
635
636 } else if( frn.has_flag( TFLAG_FLAMMABLE_ASH ) ) {
637 // The fire feeds on the ground itself until max intensity.
638 time_added += 1_turns * ( 5 - cur.get_field_intensity() );
639 if( cur.get_field_intensity() > 1 &&
640 one_in( 200 - cur.get_field_intensity() * 50 ) ) {
641 furn_set( p, f_ash );
642 add_item_or_charges( p, item( "ash" ) );
643 }
644
645 }
646 }
647
648 if( ter.has_flag( TFLAG_NO_FLOOR ) && zlevels && p.z > -OVERMAP_DEPTH ) {
649 // We're hanging in the air - let's fall down
650 tripoint dst{ p.xy(), p.z - 1 };
651 if( valid_move( p, dst, true, true ) ) {
652 maptile dst_tile = maptile_at_internal( dst );
653 field_entry *fire_there = dst_tile.find_field( fd_fire );
654 if( fire_there == nullptr ) {
655 add_field( dst, fd_fire, 1, 0_turns, false );
657 } else {
658 // Don't fuel raging fires or they'll burn forever
659 // as they can produce small fires above themselves
660 int new_intensity = std::max( cur.get_field_intensity(),
661 fire_there->get_field_intensity() );
662 // Allow smaller fires to combine
663 if( new_intensity < 3 &&
664 cur.get_field_intensity() == fire_there->get_field_intensity() ) {
665 new_intensity++;
666 }
667 // A raging fire below us can support us for a while
668 // Otherwise decay and decay fast
669 if( fire_there->get_field_intensity() < 3 || one_in( 10 ) ) {
671 }
672 fire_there->set_field_intensity( new_intensity );
673 }
674 break;
675 }
676 }
677 // Lower age is a longer lasting fire
678 if( time_added != 0_turns ) {
679 cur.set_field_age( cur.get_field_age() - time_added );
680 } else if( can_burn ) {
681 // Nothing to burn = fire should be dying out faster
682 // Drain more power from big fires, so that they stop raging over nothing
683 // Except for fires on stoves and fireplaces, those are made to keep the fire alive
684 cur.mod_field_age( 10_seconds * cur.get_field_intensity() );
685 }
686
687 // Allow raging fires (and only raging fires) to spread up
688 // Spreading down is achieved by wrecking the walls/floor and then falling
689 if( zlevels && cur.get_field_intensity() == 3 && p.z < OVERMAP_HEIGHT ) {
690 const tripoint dst_p = tripoint( p.xy(), p.z + 1 );
691 // Let it burn through the floor
692 maptile dst = maptile_at_internal( dst_p );
693 const auto &dst_ter = dst.get_ter_t();
694 if( dst_ter.has_flag( TFLAG_NO_FLOOR ) ||
695 dst_ter.has_flag( TFLAG_FLAMMABLE ) ||
696 dst_ter.has_flag( TFLAG_FLAMMABLE_ASH ) ||
697 dst_ter.has_flag( TFLAG_FLAMMABLE_HARD ) ) {
698 field_entry *nearfire = dst.find_field( fd_fire );
699 if( nearfire != nullptr ) {
700 nearfire->mod_field_age( -2_turns );
701 } else {
702 add_field( dst_p, fd_fire, 1, 0_turns, false );
703 }
704 // Fueling fires above doesn't cost fuel
705 }
706 }
707
708 // Below we will access our nearest 8 neighbors, so let's cache them now
709 // This should probably be done more globally, because large fires will re-do it a lot
710 auto neighs = get_neighbors( p );
711
712 // If the flames are in a pit, it can't spread to non-pit
713 const bool in_pit = can_spread && ter.id.id() == t_pit;
714
715 // Count adjacent fires, to optimize out needless smoke and hot air
716 int adjacent_fires = 0;
717
718 // If the flames are big, they contribute to adjacent flames
719 if( can_spread ) {
720 if( cur.get_field_intensity() > 1 && one_in( 3 ) ) {
721 // Basically: Scan around for a spot,
722 // if there is more fire there, make it bigger and give it some fuel.
723 // This is how big fires spend their excess age:
724 // making other fires bigger. Flashpoint.
725 size_t end_it = static_cast<size_t>( rng( 0, neighs.size() - 1 ) );
726 for( size_t i = ( end_it + 1 ) % neighs.size(), count = 0;
727 count != neighs.size() && cur.get_field_age() < 0_turns;
728 i = ( i + 1 ) % neighs.size(), count++ ) {
729 maptile &dst = neighs[i].second;
730 auto dstfld = dst.find_field( fd_fire );
731 // If the fire exists and is weaker than ours, boost it
732 if( dstfld != nullptr &&
733 ( dstfld->get_field_intensity() <= cur.get_field_intensity() ||
734 dstfld->get_field_age() > cur.get_field_age() ) &&
735 ( in_pit == ( dst.get_ter() == t_pit ) ) ) {
736 if( dstfld->get_field_intensity() < 2 ) {
737 dstfld->set_field_intensity( dstfld->get_field_intensity() + 1 );
738 }
739
740 dstfld->set_field_age( dstfld->get_field_age() - 5_minutes );
741 cur.set_field_age( cur.get_field_age() + 5_minutes );
742 }
743 if( dstfld != nullptr ) {
744 adjacent_fires++;
745 }
746 }
747 } else if( cur.get_field_age() < 0_turns && cur.get_field_intensity() < 3 ) {
748 // See if we can grow into a stage 2/3 fire, for this
749 // burning neighbors are necessary in addition to
750 // field age < 0, or alternatively, a LOT of fuel.
751
752 // The maximum fire intensity is 1 for a lone fire, 2 for at least 1 neighbor,
753 // 3 for at least 2 neighbors.
754 int maximum_intensity = 1;
755
756 // The following logic looks a bit complex due to optimization concerns, so here are the semantics:
757 // 1. Calculate maximum field intensity based on fuel, -50 minutes is 2(medium), -500 minutes is 3(raging)
758 // 2. Calculate maximum field intensity based on neighbors, 3 neighbors is 2(medium), 7 or more neighbors is 3(raging)
759 // 3. Pick the higher maximum between 1. and 2.
760 if( cur.get_field_age() < -500_minutes ) {
761 maximum_intensity = 3;
762 } else {
763 for( auto &neigh : neighs ) {
764 if( neigh.second.get_field().find_field( fd_fire ) != nullptr ) {
765 adjacent_fires++;
766 }
767 }
768 maximum_intensity = 1 + ( adjacent_fires >= 3 ) + ( adjacent_fires >= 7 );
769
770 if( maximum_intensity < 2 && cur.get_field_age() < -50_minutes ) {
771 maximum_intensity = 2;
772 }
773 }
774
775 // If we consumed a lot, the flames grow higher
776 if( cur.get_field_intensity() < maximum_intensity && cur.get_field_age() < 0_turns ) {
777 // Fires under 0 age grow in size. Level 3 fires under 0 spread later on.
778 // Weaken the newly-grown fire
780 cur.set_field_age( cur.get_field_age() + 10_minutes * cur.get_field_intensity() );
781 }
782 }
783
784 // Consume adjacent fuel / terrain / webs to spread.
785 // Our iterator will start at end_i + 1 and increment from there and then wrap around.
786 // This guarantees it will check all neighbors, starting from a random one
787 const size_t end_i = static_cast<size_t>( rng( 0, neighs.size() - 1 ) );
788 for( size_t i = ( end_i + 1 ) % neighs.size(), count = 0;
789 count != neighs.size();
790 i = ( i + 1 ) % neighs.size(), count++ ) {
791 if( one_in( cur.get_field_intensity() * 2 ) ) {
792 // Skip some processing to save on CPU
793 continue;
794 }
795
796 tripoint &dst_p = neighs[i].first;
797 maptile &dst = neighs[i].second;
798 // No bounds checking here: we'll treat the invalid neighbors as valid.
799 // We're using the map tile wrapper, so we can treat invalid tiles as sentinels.
800 // This will create small oddities on map edges, but nothing more noticeable than
801 // "cut-off" that happens with bounds checks.
802
803 field_entry *nearfire = dst.find_field( fd_fire );
804 if( nearfire != nullptr ) {
805 // We handled supporting fires in the section above, no need to do it here
806 continue;
807 }
808
809 field_entry *nearwebfld = dst.find_field( fd_web );
810 int spread_chance = 25 * ( cur.get_field_intensity() - 1 );
811 if( nearwebfld != nullptr ) {
812 spread_chance = 50 + spread_chance / 2;
813 }
814
815 const ter_t &dster = dst.get_ter_t();
816 const furn_t &dsfrn = dst.get_furn_t();
817 // Allow weaker fires to spread occasionally
818 const int power = cur.get_field_intensity() + one_in( 5 );
819 if( can_spread && rng( 1, 100 ) < spread_chance &&
820 ( check_flammable( dster ) || check_flammable( dsfrn ) ) &&
821 ( in_pit == ( dster.id.id() == t_pit ) ) &&
822 (
823 ( power >= 3 && cur.get_field_age() < 0_turns && one_in( 20 ) ) ||
824 ( power >= 2 && ( ter_furn_has_flag( dster, dsfrn, TFLAG_FLAMMABLE ) && one_in( 2 ) ) ) ||
825 ( power >= 2 && ( ter_furn_has_flag( dster, dsfrn, TFLAG_FLAMMABLE_ASH ) && one_in( 2 ) ) ) ||
826 ( power >= 3 && ( ter_furn_has_flag( dster, dsfrn, TFLAG_FLAMMABLE_HARD ) && one_in( 5 ) ) ) ||
827 nearwebfld || ( dst.get_item_count() > 0 &&
829 one_in( 5 ) )
830 ) ) {
831 // Nearby open flammable ground? Set it on fire.
832 add_field( dst_p, fd_fire, 1, 0_turns, false );
833 tmpfld = dst.find_field( fd_fire );
834 if( tmpfld != nullptr ) {
835 // Make the new fire quite weak, so that it doesn't start jumping around instantly
836 tmpfld->set_field_age( 2_minutes );
837 // Consume a bit of our fuel
838 cur.set_field_age( cur.get_field_age() + 1_minutes );
839 }
840 if( nearwebfld ) {
841 nearwebfld->set_field_intensity( 0 );
842 }
843 }
844 }
845 }
846 }
847
848 // Spread gaseous fields
849 if( cur.gas_can_spread() ) {
850 const int gas_percent_spread = cur_fd_type.percent_spread;
851 if( gas_percent_spread > 0 ) {
852 const time_duration outdoor_age_speedup = cur_fd_type.outdoor_age_speedup;
853 spread_gas( cur, p, gas_percent_spread, outdoor_age_speedup, sblk );
854 }
855 }
856
857 if( cur_fd_type_id == fd_fungal_haze ) {
858 if( one_in( 10 - 2 * cur.get_field_intensity() ) ) {
859 // Haze'd terrain
860 fungal_effects( *g, here ).spread_fungus( p );
861 }
862 }
863
864 // Process npc complaints
865 const std::tuple<int, std::string, time_duration, std::string> &npc_complain_data =
866 cur_fd_type.npc_complain_data;
867 const int chance = std::get<0>( npc_complain_data );
868 if( chance > 0 && one_in( chance ) ) {
869 if( npc *const np = g->critter_at<npc>( p, false ) ) {
870 np->complain_about( std::get<1>( npc_complain_data ),
871 std::get<2>( npc_complain_data ),
872 std::get<3>( npc_complain_data ) );
873 }
874 }
875
876 // Apply radiation
877 if( cur.extra_radiation_max() > 0 ) {
878 int extra_radiation = rng( cur.extra_radiation_min(), cur.extra_radiation_max() );
879 adjust_radiation( p, extra_radiation );
880 }
881
882 // Apply wandering fields from vents
883 if( cur_fd_type.wandering_field ) {
884 for( const tripoint &pnt : points_in_radius( p, cur.get_field_intensity() - 1 ) ) {
885 field &wandering_field = get_field( pnt );
886 tmpfld = wandering_field.find_field( cur_fd_type.wandering_field );
887 if( tmpfld && tmpfld->get_field_intensity() < cur.get_field_intensity() ) {
888 tmpfld->set_field_intensity( tmpfld->get_field_intensity() + 1 );
889 } else {
890 add_field( pnt, cur_fd_type.wandering_field, cur.get_field_intensity() );
891 }
892 }
893 }
894
895 if( cur_fd_type_id == fd_fire_vent ) {
896
897 if( cur.get_field_intensity() > 1 ) {
898 if( one_in( 3 ) ) {
900 }
902 } else {
903 dirty_transparency_cache = true;
904 add_field( p, fd_flame_burst, 3, cur.get_field_age() );
905 cur.set_field_intensity( 0 );
906 }
907 }
908 if( cur_fd_type_id == fd_flame_burst ) {
909 if( cur.get_field_intensity() > 1 ) {
912 } else {
913 dirty_transparency_cache = true;
914 add_field( p, fd_fire_vent, 3, cur.get_field_age() );
915 cur.set_field_intensity( 0 );
916 }
917 }
918 if( cur_fd_type_id == fd_electricity ) {
919 // 4 in 5 chance to spread
920 if( !one_in( 5 ) ) {
921 std::vector<tripoint> valid;
922 // We're grounded
923 if( impassable( p ) && cur.get_field_intensity() > 1 ) {
924 int tries = 0;
925 tripoint pnt;
926 pnt.z = p.z;
927 while( tries < 10 && cur.get_field_age() < 5_minutes && cur.get_field_intensity() > 1 ) {
928 pnt.x = p.x + rng( -1, 1 );
929 pnt.y = p.y + rng( -1, 1 );
930 if( passable( pnt ) && !obstructed_by_vehicle_rotation( p, pnt ) ) {
931 add_field( pnt, fd_electricity, 1, cur.get_field_age() + 1_turns );
933 tries = 0;
934 } else {
935 tries++;
936 }
937 }
938 // We're not grounded; attempt to ground
939 } else {
940 for( const tripoint &dst : points_in_radius( p, 1 ) ) {
941 // Grounded tiles first
942 if( impassable( dst ) ) {
943 valid.push_back( dst );
944 }
945 }
946 // Spread to adjacent space, then
947 if( valid.empty() ) {
948 tripoint dst( p + point( rng( -1, 1 ), rng( -1, 1 ) ) );
949 field_entry *elec = get_field( dst ).find_field( fd_electricity );
950 bool pass = passable( dst ) && !obstructed_by_vehicle_rotation( p, dst );
951 if( pass && elec != nullptr &&
952 elec->get_field_intensity() < 3 ) {
953 elec->set_field_intensity( elec->get_field_intensity() + 1 );
955 } else if( pass ) {
956 add_field( dst, fd_electricity, 1, cur.get_field_age() + 1_turns );
957 }
959 }
960 while( !valid.empty() && cur.get_field_intensity() > 1 ) {
961 const tripoint target = random_entry_removed( valid );
962 add_field( target, fd_electricity, 1, cur.get_field_age() + 1_turns );
964 }
965 }
966 }
967 }
968
969 int monster_spawn_chance = cur.monster_spawn_chance();
970 int monster_spawn_count = cur.monster_spawn_count();
971 if( monster_spawn_count > 0 && monster_spawn_chance > 0 && one_in( monster_spawn_chance ) ) {
972 for( ; monster_spawn_count > 0; monster_spawn_count-- ) {
974 cur.monster_spawn_group(), &monster_spawn_count );
975 if( !spawn_details.name ) {
976 continue;
977 }
980 [this]( const tripoint & n ) {
981 return passable( n );
982 } ) ) {
983 add_spawn( spawn_details.name, spawn_details.pack_size, *spawn_point );
984 }
985 }
986 }
987
988 if( cur_fd_type_id == fd_push_items ) {
989 map_stack items = i_at( p );
990 for( auto pushee = items.begin(); pushee != items.end(); ) {
991 if( pushee->typeId() != itype_rock ||
992 pushee->age() < 1_turns ) {
993 pushee++;
994 } else {
995 item tmp = *pushee;
996 tmp.set_age( 0_turns );
997 pushee = items.erase( pushee );
998 std::vector<tripoint> valid;
999 for( const tripoint &dst : points_in_radius( p, 1 ) ) {
1000 if( get_field( dst, fd_push_items ) != nullptr ) {
1001 valid.push_back( dst );
1002 }
1003 }
1004 if( !valid.empty() ) {
1005 tripoint newp = random_entry( valid );
1006 add_item_or_charges( newp, tmp );
1007 if( g->u.pos() == newp ) {
1008 add_msg( m_bad, _( "A %s hits you!" ), tmp.tname() );
1009 const bodypart_id hit = g->u.get_random_body_part();
1010 g->u.deal_damage( nullptr, hit, damage_instance( DT_BASH, 6 ) );
1011 g->u.check_dead_state();
1012 }
1013
1014 if( npc *const p = g->critter_at<npc>( newp ) ) {
1015 // TODO: combine with player character code above
1016 const bodypart_id hit = g->u.get_random_body_part();
1017 p->deal_damage( nullptr, hit, damage_instance( DT_BASH, 6 ) );
1018 if( g->u.sees( newp ) ) {
1019 add_msg( _( "A %1$s hits %2$s!" ), tmp.tname(), p->name );
1020 }
1021 p->check_dead_state();
1022 } else if( monster *const mon = g->critter_at<monster>( newp ) ) {
1023 mon->apply_damage( nullptr, bodypart_id( "torso" ),
1024 6 - mon->get_armor_bash( bodypart_id( "torso" ) ) );
1025 if( g->u.sees( newp ) ) {
1026 add_msg( _( "A %1$s hits the %2$s!" ), tmp.tname(), mon->name() );
1027 }
1028 mon->check_dead_state();
1029 }
1030 }
1031 }
1032 }
1033 }
1034 if( cur_fd_type_id == fd_shock_vent ) {
1035 if( cur.get_field_intensity() > 1 ) {
1036 if( one_in( 5 ) ) {
1038 }
1039 } else {
1040 cur.set_field_intensity( 3 );
1041 int num_bolts = rng( 3, 6 );
1042 for( int i = 0; i < num_bolts; i++ ) {
1043 int xdir = 0;
1044 int ydir = 0;
1045 while( xdir == 0 && ydir == 0 ) {
1046 xdir = rng( -1, 1 );
1047 ydir = rng( -1, 1 );
1048 }
1049 int dist = rng( 4, 12 );
1050 int boltx = p.x;
1051 int bolty = p.y;
1052 for( int n = 0; n < dist; n++ ) {
1053 boltx += xdir;
1054 bolty += ydir;
1055 add_field( tripoint( boltx, bolty, p.z ), fd_electricity, rng( 2, 3 ) );
1056 if( one_in( 4 ) ) {
1057 if( xdir == 0 ) {
1058 xdir = rng( 0, 1 ) * 2 - 1;
1059 } else {
1060 xdir = 0;
1061 }
1062 }
1063 if( one_in( 4 ) ) {
1064 if( ydir == 0 ) {
1065 ydir = rng( 0, 1 ) * 2 - 1;
1066 } else {
1067 ydir = 0;
1068 }
1069 }
1070 }
1071 }
1072 }
1073 }
1074 if( cur_fd_type_id == fd_acid_vent ) {
1075
1076 if( cur.get_field_intensity() > 1 ) {
1077 if( cur.get_field_age() >= 1_minutes ) {
1079 cur.set_field_age( 0_turns );
1080 }
1081 } else {
1082 cur.set_field_intensity( 3 );
1083 for( const tripoint &t : points_in_radius( p, 5 ) ) {
1084 const field_entry *acid = get_field( t, fd_acid );
1085 if( acid != nullptr && acid->get_field_intensity() == 0 ) {
1086 int new_intensity = 3 - rl_dist( p, t ) / 2 + ( one_in( 3 ) ? 1 : 0 );
1087 if( new_intensity > 3 ) {
1088 new_intensity = 3;
1089 }
1090 if( new_intensity > 0 ) {
1091 add_field( t, fd_acid, new_intensity );
1092 }
1093 }
1094 }
1095 }
1096 }
1097 if( cur_fd_type_id == fd_bees ) {
1098 // Poor bees are vulnerable to so many other fields.
1099 // TODO: maybe adjust effects based on different fields.
1100 if( curfield.find_field( fd_web ) ||
1101 curfield.find_field( fd_fire ) ||
1102 curfield.find_field( fd_smoke ) ||
1103 curfield.find_field( fd_toxic_gas ) ||
1104 curfield.find_field( fd_tear_gas ) ||
1105 curfield.find_field( fd_relax_gas ) ||
1106 curfield.find_field( fd_nuke_gas ) ||
1107 curfield.find_field( fd_gas_vent ) ||
1108 curfield.find_field( fd_smoke_vent ) ||
1109 curfield.find_field( fd_fungicidal_gas ) ||
1110 curfield.find_field( fd_insecticidal_gas ) ||
1111 curfield.find_field( fd_fire_vent ) ||
1112 curfield.find_field( fd_flame_burst ) ||
1113 curfield.find_field( fd_electricity ) ||
1114 curfield.find_field( fd_fatigue ) ||
1115 curfield.find_field( fd_shock_vent ) ||
1116 curfield.find_field( fd_plasma ) ||
1117 curfield.find_field( fd_laser ) ||
1118 curfield.find_field( fd_dazzling ) ||
1119 curfield.find_field( fd_electricity ) ||
1120 curfield.find_field( fd_incendiary ) ) {
1121 // Kill them at the end of processing.
1122 cur.set_field_intensity( 0 );
1123 } else {
1124 // Bees chase the player if in range, wander randomly otherwise.
1125 if( !g->u.is_underwater() &&
1126 rl_dist( p, g->u.pos() ) < 10 &&
1127 clear_path( p, g->u.pos(), 10, 1, 100 ) ) {
1128
1129 std::vector<point> candidate_positions =
1130 squares_in_direction( p.xy(), point( g->u.posx(), g->u.posy() ) );
1131 for( const point &candidate_position : candidate_positions ) {
1132 field &target_field = get_field( tripoint( candidate_position, p.z ) );
1133 // Only shift if there are no bees already there.
1134 // TODO: Figure out a way to merge bee fields without allowing
1135 // Them to effectively move several times in a turn depending
1136 // on iteration direction.
1137 if( !target_field.find_field( fd_bees ) ) {
1138 add_field( tripoint( candidate_position, p.z ), fd_bees,
1139 cur.get_field_intensity(), cur.get_field_age() );
1140 cur.set_field_intensity( 0 );
1141 break;
1142 }
1143 }
1144 } else {
1145 spread_gas( cur, p, 5, 0_turns, sblk );
1146 }
1147 }
1148 }
1149 if( cur_fd_type_id == fd_incendiary ) {
1150 // Needed for variable scope
1151 tripoint dst( p + point( rng( -1, 1 ), rng( -1, 1 ) ) );
1152 if( has_flag( TFLAG_FLAMMABLE, dst ) ||
1153 has_flag( TFLAG_FLAMMABLE_ASH, dst ) ||
1154 has_flag( TFLAG_FLAMMABLE_HARD, dst ) ) {
1155 add_field( dst, fd_fire, 1 );
1156 }
1157
1158 // Check piles for flammable items and set those on fire
1159 if( flammable_items_at( dst ) ) {
1160 add_field( dst, fd_fire, 1 );
1161 }
1162
1164 }
1165 if( cur_fd_type_id == fd_fungicidal_gas ) {
1166 // Check the terrain and replace it accordingly to simulate the fungus dieing off
1167 const ter_t &ter = map_tile.get_ter_t();
1168 const furn_t &frn = map_tile.get_furn_t();
1169 const int intensity = cur.get_field_intensity();
1170 if( ter.has_flag( flag_FUNGUS ) && one_in( 10 / intensity ) ) {
1171 ter_set( p, t_dirt );
1172 }
1173 if( frn.has_flag( flag_FUNGUS ) && one_in( 10 / intensity ) ) {
1174 furn_set( p, f_null );
1175 }
1176 }
1177
1178 cur.set_field_age( cur.get_field_age() + 1_turns );
1179 auto &fdata = cur.get_field_type().obj();
1180 if( fdata.half_life > 0_turns && cur.get_field_age() > 0_turns &&
1181 dice( 2, to_turns<int>( cur.get_field_age() ) ) > to_turns<int>( fdata.half_life ) ) {
1182 cur.set_field_age( 0_turns );
1184 }
1185 if( !cur.is_field_alive() ) {
1186 --current_submap->field_count;
1187 curfield.remove_field( it++ );
1188 } else {
1189 ++it;
1190 }
1191 }
1192
1193 if( dirty_transparency_cache ) {
1195 set_seen_cache_dirty( thep );
1196 }
1197 }
1198 }
1199 const int minz = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
1200 const int maxz = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
1201 for( int z = std::max( submap.z - 1, minz ); z <= std::min( submap.z + 1, maxz ); ++z ) {
1202 auto &field_cache = get_cache( z ).field_cache;
1203 for( int y = std::max( submap.y - 1, 0 ); y <= std::min( submap.y + 1, MAPSIZE - 1 ); ++y ) {
1204 for( int x = std::max( submap.x - 1, 0 ); x <= std::min( submap.x + 1, MAPSIZE - 1 ); ++x ) {
1205 if( get_submap_at_grid( { x, y, z } )->field_count > 0 ) {
1206 field_cache.set( x + y * MAPSIZE );
1207 } else {
1208 field_cache.reset( x + y * MAPSIZE );
1209 }
1210 }
1211 }
1212 }
1213 sblk.commit_modifications();
1214}
bool gas_can_spread()
Definition: field.h:93
time_duration intensity_upgrade_duration() const
Definition: field.cpp:44
mongroup_id monster_spawn_group() const
Definition: field.cpp:64
time_duration get_underwater_age_speedup() const
Definition: field.h:97
int monster_spawn_count() const
Definition: field.cpp:54
time_duration mod_field_age(const time_duration &mod_age)
Adds given value to age.
Definition: field.h:73
int intensity_upgrade_chance() const
Definition: field.cpp:39
int monster_spawn_radius() const
Definition: field.cpp:59
int monster_spawn_chance() const
Definition: field.cpp:49
std::map< field_type_id, field_entry >::iterator begin()
Definition: field.cpp:251
std::map< field_type_id, field_entry >::iterator end()
Definition: field.cpp:261
void spread_fungus(const tripoint &p)
std::string tname(unsigned int quantity=1, bool with_prefix=true, unsigned int truncate=0) const
Return the (translated) item name.
Definition: item.cpp:4465
void set_age(const time_duration &age)
Definition: item.cpp:9858
bool detonate(const tripoint &p, std::vector< item > &drops)
Detonates the item and adds remains (if any) to drops.
Definition: item.cpp:8613
std::array< std::pair< tripoint, maptile >, 8 > get_neighbors(const tripoint &p)
Definition: map_field.cpp:190
void create_hot_air(const tripoint &p, int intensity)
Definition: map_field.cpp:363
bool clear_path(const tripoint &f, const tripoint &t, int range, int cost_min, int cost_max) const
Check whether there's a direct line of sight between F and T with the additional movecost restraints.
Definition: map.cpp:6386
void spread_gas(field_entry &cur, const tripoint &p, int percent_spread, const time_duration &outdoor_age_speedup, scent_block &sblk)
Definition: map_field.cpp:251
void create_burnproducts(const tripoint &p, const item &fuel, const units::mass &burned_mass)
Definition: map_field.cpp:96
field_type_id fd_laser
Definition: field_type.cpp:359
field_type_id fd_plasma
Definition: field_type.cpp:358
field_type_id fd_null
Definition: field_type.cpp:335
std::vector< point > squares_in_direction(const point &p1, const point &p2)
Definition: line.cpp:588
static const itype_id itype_rock("rock")
static bool check_flammable(const map_data_common_t &t)
Definition: map_field.cpp:354
static const std::string flag_FUNGUS("FUNGUS")
furn_id f_ash
Definition: mapdata.cpp:1097
ter_id t_pit
Definition: mapdata.cpp:625
@ TFLAG_FLAMMABLE_HARD
Definition: mapdata.h:294
@ TFLAG_FLAMMABLE
Definition: mapdata.h:277
@ TFLAG_FLAMMABLE_ASH
Definition: mapdata.h:289
@ TFLAG_FIRE_CONTAINER
Definition: mapdata.h:293
bool acid(monster *z)
Definition: monattack.cpp:585
bool get_transparent(int level=0) const
Definition: field_type.h:204
int percent_spread
Definition: field_type.h:157
field_type_id wandering_field
Definition: field_type.h:182
std::tuple< int, std::string, time_duration, std::string > npc_complain_data
Definition: field_type.h:170
time_duration outdoor_age_speedup
Definition: field_type.h:155
int apply_slime_factor
Definition: field_type.h:158
Contains the state of a fire in one tile on one turn.
Definition: fire.h:18
size_t get_item_count() const
Definition: submap.h:333
ter_id get_ter() const
Definition: submap.h:289

References _, abs_sub, mattack::acid(), add_field(), add_item_or_charges(), add_msg(), add_spawn(), adjust_radiation(), scent_block::apply_slime(), field_type::apply_slime_factor, field::begin(), item_stack::begin(), check_flammable(), clear_path(), scent_block::commit_modifications(), detail::count(), create_burnproducts(), create_hot_air(), vehicle::damage(), debugmsg, destroy(), destroyed, item::detonate(), dice(), field_type::dirty_transparency_cache, field::displayed_field_type(), DT_BASH, DT_HEAT, eight_horizontal_neighbors, field::end(), item_stack::end(), map_stack::erase(), explosive, field_entry::extra_radiation_max(), field_entry::extra_radiation_min(), f_ash, f_null, fd_acid, fd_acid_vent, fd_bees, fd_dazzling, fd_electricity, fd_fatigue, fd_fire, fd_fire_vent, fd_flame_burst, fd_fungal_haze, fd_fungicidal_gas, fd_gas_vent, fd_incendiary, fd_insecticidal_gas, fd_laser, fd_nuke_gas, fd_null, fd_plasma, fd_push_items, fd_relax_gas, fd_shock_vent, fd_smoke, fd_smoke_vent, fd_tear_gas, fd_toxic_gas, fd_web, field_at(), level_cache::field_cache, submap::field_count, maptile::find_field(), field::find_field(), flag_FUNGUS(), flammable_items_at(), fire_data::fuel_produced, furn_set(), g, field_entry::gas_can_spread(), get_cache(), submap::get_field(), get_field(), field_entry::get_field_age(), field_entry::get_field_intensity(), field_entry::get_field_type(), maptile::get_furn_t(), maptile::get_item_count(), get_map(), get_neighbors(), get_submap_at_grid(), maptile::get_ter(), maptile::get_ter_t(), field_type::get_transparent(), field_entry::get_underwater_age_speedup(), MonsterGroupManager::GetResultFromGroup(), map_data_common_t::has_flag(), has_flag(), i_at(), int_id< T >::id(), ter_t::id, string_id< T >::id(), impassable(), field_entry::intensity_upgrade_chance(), field_entry::intensity_upgrade_duration(), field_entry::is_field_alive(), itype_rock, m_bad, MAPSIZE, maptile_at_internal(), field_entry::mod_field_age(), field_entry::monster_spawn_chance(), field_entry::monster_spawn_count(), field_entry::monster_spawn_group(), field_entry::monster_spawn_radius(), MonsterGroupResult::name, field_type::npc_complain_data, int_id< T >::obj(), obstructed_by_vehicle_rotation(), calendar::once_every(), one_in(), field_type::outdoor_age_speedup, OVERMAP_DEPTH, OVERMAP_HEIGHT, MonsterGroupResult::pack_size, passable(), field_type::percent_spread, point_zero, points_in_radius(), maptile::pos_, random_entry(), random_entry_removed(), random_point(), field::remove_field(), rl_dist(), rng(), roll_remainder(), SEEX, SEEY, item::set_age(), field_entry::set_field_age(), field_entry::set_field_intensity(), set_seen_cache_dirty(), set_transparency_cache_dirty(), spawn_items(), fungal_effects::spread_fungus(), spread_gas(), squares_in_direction(), t_dirt, t_open_air, t_pit, ter(), ter_furn_has_flag(), ter_set(), TFLAG_ALLOW_FIELD_EFFECT, TFLAG_FIRE_CONTAINER, TFLAG_FLAMMABLE, TFLAG_FLAMMABLE_ASH, TFLAG_FLAMMABLE_HARD, TFLAG_NO_FLOOR, TFLAG_SEALED, TFLAG_SWIMMABLE, item::tname(), valid_move(), veh_at_internal(), field_type::wandering_field, point::x, tripoint::x, tripoint::xy(), point::y, tripoint::y, tripoint::z, and zlevels.

Referenced by process_fields().

◆ process_items()

void map::process_items ( )

Definition at line 4561 of file map.cpp.

4562{
4563 const int minz = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
4564 const int maxz = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
4565 for( int gz = minz; gz <= maxz; ++gz ) {
4566 level_cache &cache = access_cache( gz );
4567 std::set<tripoint> submaps_with_vehicles;
4568 for( vehicle *this_vehicle : cache.vehicle_list ) {
4569 tripoint pos = this_vehicle->global_pos3();
4570 submaps_with_vehicles.emplace( pos.x / SEEX, pos.y / SEEY, pos.z );
4571 }
4572 for( const tripoint &pos : submaps_with_vehicles ) {
4573 submap *const current_submap = get_submap_at_grid( pos );
4574 // Vehicles first in case they get blown up and drop active items on the map.
4575 process_items_in_vehicles( *current_submap );
4576 }
4577 }
4578 // Making a copy, in case the original variable gets modified during `process_items_in_submap`
4579 const std::set<tripoint> submaps_with_active_items_copy = submaps_with_active_items;
4580 for( const tripoint &abs_pos : submaps_with_active_items_copy ) {
4581 const tripoint local_pos = abs_pos - abs_sub.xy();
4582 submap *const current_submap = get_submap_at_grid( local_pos );
4583 if( !current_submap->active_items.empty() ) {
4584 process_items_in_submap( *current_submap, local_pos );
4585 }
4586 }
4587}
void process_items_in_vehicles(submap &current_submap)
Definition: map.cpp:4619
void process_items_in_submap(submap &current_submap, const tripoint &gridp)
Definition: map.cpp:4589

References abs_sub, access_cache(), submap::active_items, active_item_cache::empty(), get_submap_at_grid(), vehicle::global_pos3(), OVERMAP_DEPTH, OVERMAP_HEIGHT, wrapped_vehicle::pos, process_items_in_submap(), process_items_in_vehicles(), SEEX, SEEY, submaps_with_active_items, level_cache::vehicle_list, tripoint::x, tripoint::xy(), tripoint::y, tripoint::z, and zlevels.

Referenced by game::do_turn().

◆ process_items_in_submap()

void map::process_items_in_submap ( submap current_submap,
const tripoint gridp 
)
private

Definition at line 4589 of file map.cpp.

4590{
4591 // Get a COPY of the active item list for this submap.
4592 // If more are added as a side effect of processing, they are ignored this turn.
4593 // If they are destroyed before processing, they don't get processed.
4594 std::vector<item_reference> active_items = current_submap.active_items.get_for_processing();
4595 const point grid_offset( gridp.x * SEEX, gridp.y * SEEY );
4596 for( item_reference &active_item_ref : active_items ) {
4597 if( !active_item_ref.item_ref ) {
4598 // The item was destroyed, so skip it.
4599 continue;
4600 }
4601
4602 const tripoint map_location = tripoint( grid_offset + active_item_ref.location, gridp.z );
4603 // root cellars are special
4605 if( ter( map_location ) == t_rootcellar ) {
4607 }
4608 if( furn( map_location ) == f_fridge_on ) {
4610 }
4611 if( furn( map_location ) == f_minifreezer_on ) {
4613 }
4614 map_stack items = i_at( map_location );
4615 process_map_items( items, active_item_ref.item_ref, map_location, 1, flag );
4616 }
4617}
std::vector< item_reference > get_for_processing()
Returns the first size() / processing_speed() elements of each list, rounded up.
temperature_flag
Definition: enums.h:42
@ TEMP_NORMAL
Definition: enums.h:43
@ TEMP_FRIDGE
Definition: enums.h:45
@ TEMP_FREEZER
Definition: enums.h:46
@ TEMP_ROOT_CELLAR
Definition: enums.h:47
static bool process_map_items(item_stack &items, safe_reference< item > &item_ref, const tripoint &location, const float insulation, const temperature_flag flag)
Definition: map.cpp:4447
ter_id t_rootcellar
Definition: mapdata.cpp:711
furn_id f_minifreezer_on
Definition: mapdata.cpp:1106
furn_id f_fridge_on
Definition: mapdata.cpp:1106

References submap::active_items, f_fridge_on, f_minifreezer_on, furn(), active_item_cache::get_for_processing(), i_at(), process_map_items(), SEEX, SEEY, t_rootcellar, TEMP_FREEZER, TEMP_FRIDGE, TEMP_NORMAL, TEMP_ROOT_CELLAR, ter(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by process_items().

◆ process_items_in_vehicle()

void map::process_items_in_vehicle ( vehicle cur_veh,
submap current_submap 
)
private

Definition at line 4640 of file map.cpp.

4641{
4642 const bool engine_heater_is_on = cur_veh.has_part( "E_HEATER", true ) && cur_veh.engine_on;
4643 for( const vpart_reference &vp : cur_veh.get_any_parts( VPFLAG_FLUIDTANK ) ) {
4644 vp.part().process_contents( vp.pos(), engine_heater_is_on );
4645 }
4646
4647 auto cargo_parts = cur_veh.get_parts_including_carried( VPFLAG_CARGO );
4648 for( const vpart_reference &vp : cargo_parts ) {
4649 process_vehicle_items( cur_veh, vp.part_index() );
4650 }
4651
4652 for( item_reference &active_item_ref : cur_veh.active_items.get_for_processing() ) {
4653 if( empty( cargo_parts ) ) {
4654 return;
4655 } else if( !active_item_ref.item_ref ) {
4656 // The item was destroyed, so skip it.
4657 continue;
4658 }
4659 const auto it = std::find_if( begin( cargo_parts ),
4660 end( cargo_parts ), [&]( const vpart_reference & part ) {
4661 return active_item_ref.location == part.mount();
4662 } );
4663
4664 if( it == end( cargo_parts ) ) {
4665 continue; // Can't find a cargo part matching the active item.
4666 }
4667 const item &target = *active_item_ref.item_ref;
4668 // Find the cargo part and coordinates corresponding to the current active item.
4669 const vehicle_part &pt = it->part();
4670 const tripoint item_loc = it->pos();
4671 auto items = cur_veh.get_items( static_cast<int>( it->part_index() ) );
4672 float it_insulation = 1.0;
4674 if( target.is_food() || target.is_food_container() || target.is_corpse() ) {
4675 const vpart_info &pti = pt.info();
4676 if( engine_heater_is_on ) {
4678 }
4679 // some vehicle parts provide insulation, default is 1
4680 it_insulation = pti.item->insulation_factor;
4681
4682 if( pt.enabled && pti.has_flag( VPFLAG_FRIDGE ) ) {
4683 it_insulation = 1; // ignore fridge insulation if on
4685 } else if( pt.enabled && pti.has_flag( VPFLAG_FREEZER ) ) {
4686 it_insulation = 1; // ignore freezer insulation if on
4688 }
4689 }
4690 if( !process_map_items( items, active_item_ref.item_ref, item_loc, it_insulation, flag ) ) {
4691 // If the item was NOT destroyed, we can skip the remainder,
4692 // which handles fallout from the vehicle being damaged.
4693 continue;
4694 }
4695
4696 // item does not exist anymore, might have been an exploding bomb,
4697 // check if the vehicle is still valid (does exist)
4698 if( !current_submap.contains_vehicle( &cur_veh ) ) {
4699 // Nope, vehicle is not in the vehicle list of the submap,
4700 // it might have moved to another submap (unlikely)
4701 // or be destroyed, anyway it does not need to be processed here
4702 return;
4703 }
4704
4705 // Vehicle still valid, reload the list of cargo parts,
4706 // the list of cargo parts might have changed (imagine a part with
4707 // a low index has been removed by an explosion, all the other
4708 // parts would move up to fill the gap).
4709 cargo_parts = cur_veh.get_any_parts( VPFLAG_CARGO );
4710 }
4711}
bool is_food_container() const
Definition: item.cpp:6479
bool is_corpse() const
Whether this is a corpse item.
Definition: item.cpp:6491
bool contains_vehicle(vehicle *)
Definition: submap.cpp:220
bool engine_on
Definition: vehicle.h:1989
vehicle_part_with_feature_range< std::string > get_parts_including_carried(std::string feature) const
Yields a range of parts of this vehicle that each have the given feature and are not broken or remove...
Definition: vehicle.cpp:2730
bool has_part(const std::string &flag, bool enabled=false) const
Check if vehicle has at least one unbroken part with specified flag.
Definition: vehicle.cpp:2560
active_item_cache active_items
Definition: vehicle.h:1864
vehicle_part_with_feature_range< std::string > get_any_parts(std::string feature) const
Yields a range of parts of this vehicle that each have the given feature and not removed.
Definition: vehicle.cpp:2744
itype_id item
base item for this part
Definition: veh_type.h:152
point mount() const
Returns the mount point: the point in the vehicles own coordinate system.
Definition: vehicle.cpp:6787
@ TEMP_HEATER
Definition: enums.h:44
static void process_vehicle_items(vehicle &cur_veh, int part)
Definition: map.cpp:4462
float insulation_factor
How much insulation this item provides, either as a container, or as a vehicle base part.
Definition: itype.h:1037
const vpart_info & info() const
Get part definition common to all parts of this type.
bool enabled
Definition: vehicle.h:411
@ VPFLAG_FLUIDTANK
Definition: veh_type.h:73
@ VPFLAG_FREEZER
Definition: veh_type.h:58
@ VPFLAG_FRIDGE
Definition: veh_type.h:57

References vehicle::active_items, submap::contains_vehicle(), vehicle_part::enabled, vehicle::engine_on, vehicle::get_any_parts(), active_item_cache::get_for_processing(), vehicle::get_items(), vehicle::get_parts_including_carried(), vpart_info::has_flag(), vehicle::has_part(), vehicle_part::info(), itype::insulation_factor, item::is_corpse(), item::is_food(), item::is_food_container(), vpart_info::item, vpart_position::mount(), process_map_items(), process_vehicle_items(), TEMP_FREEZER, TEMP_FRIDGE, TEMP_HEATER, TEMP_NORMAL, VPFLAG_CARGO, VPFLAG_FLUIDTANK, VPFLAG_FREEZER, and VPFLAG_FRIDGE.

Referenced by process_items_in_vehicles().

◆ process_items_in_vehicles()

void map::process_items_in_vehicles ( submap current_submap)
private

Definition at line 4619 of file map.cpp.

4620{
4621 // a copy, important if the vehicle list changes because a
4622 // vehicle got destroyed by a bomb (an active item!), this list
4623 // won't change, but veh_in_nonant will change.
4624 std::vector<vehicle *> vehicles;
4625 for( const auto &veh : current_submap.vehicles ) {
4626 vehicles.push_back( veh.get() );
4627 }
4628 for( auto &cur_veh : vehicles ) {
4629 if( !current_submap.contains_vehicle( cur_veh ) ) {
4630 // vehicle not in the vehicle list of the nonant, has been
4631 // destroyed (or moved to another nonant?)
4632 // Can't be sure that it still exists, so skip it
4633 continue;
4634 }
4635
4636 process_items_in_vehicle( *cur_veh, current_submap );
4637 }
4638}
void process_items_in_vehicle(vehicle &cur_veh, submap &current_submap)
Definition: map.cpp:4640

References submap::contains_vehicle(), process_items_in_vehicle(), and submap::vehicles.

Referenced by process_items().

◆ produce_sap()

void map::produce_sap ( const tripoint p,
const time_duration time_since_last_actualize 
)
protected

Produce sap on tapped maple trees.

Parameters
pLocation of tapped tree
time_since_last_actualizeTime since this function has been called the last time.

Definition at line 7231 of file map.cpp.

7232{
7233 if( time_since_last_actualize <= 0_turns ) {
7234 return;
7235 }
7236
7237 if( t_tree_maple_tapped != ter( p ) ) {
7238 return;
7239 }
7240
7241 // Amount of maple sap liters produced per season per tap
7242 static const int maple_sap_per_season = 56;
7243
7244 // How many turns to produce 1 charge (250 ml) of sap?
7245 const time_duration producing_length = 0.75 * calendar::season_length();
7246
7247 const time_duration turns_to_produce = producing_length / ( maple_sap_per_season * 4 );
7248
7249 // How long of this time_since_last_actualize have we been in the producing period (late winter, early spring)?
7250 time_duration time_producing = 0_turns;
7251
7252 if( time_since_last_actualize >= calendar::year_length() ) {
7253 time_producing = producing_length;
7254 } else {
7255 // We are only producing sap on the intersection with the sap producing season.
7256 const time_duration early_spring_end = 0.5f * calendar::season_length();
7257 const time_duration late_winter_start = 3.75f * calendar::season_length();
7258
7259 const time_point last_actualize = calendar::turn - time_since_last_actualize;
7260 const time_duration last_actualize_tof = time_past_new_year( last_actualize );
7261 bool last_producing = (
7262 last_actualize_tof >= late_winter_start ||
7263 last_actualize_tof < early_spring_end
7264 );
7265 const time_duration current_tof = time_past_new_year( calendar::turn );
7266 bool current_producing = (
7267 current_tof >= late_winter_start ||
7268 current_tof < early_spring_end
7269 );
7270
7271 const time_duration non_producing_length = 3.25 * calendar::season_length();
7272
7273 if( last_producing && current_producing ) {
7274 if( time_since_last_actualize < non_producing_length ) {
7275 time_producing = time_since_last_actualize;
7276 } else {
7277 time_producing = time_since_last_actualize - non_producing_length;
7278 }
7279 } else if( !last_producing && !current_producing ) {
7280 if( time_since_last_actualize > non_producing_length ) {
7281 time_producing = time_since_last_actualize - non_producing_length;
7282 }
7283 } else if( last_producing && !current_producing ) {
7284 // We hit the end of early spring
7285 if( last_actualize_tof < early_spring_end ) {
7286 time_producing = early_spring_end - last_actualize_tof;
7287 } else {
7288 time_producing = calendar::year_length() - last_actualize_tof + early_spring_end;
7289 }
7290 } else if( !last_producing && current_producing ) {
7291 // We hit the start of late winter
7292 if( current_tof >= late_winter_start ) {
7293 time_producing = current_tof - late_winter_start;
7294 } else {
7295 time_producing = 0.25f * calendar::season_length() + current_tof;
7296 }
7297 }
7298 }
7299
7300 int new_charges = roll_remainder( time_producing / turns_to_produce );
7301 // Not enough time to produce 1 charge of sap
7302 if( new_charges <= 0 ) {
7303 return;
7304 }
7305
7306 item sap( "maple_sap", calendar::turn );
7307
7308 // Is there a proper container?
7309 auto items = i_at( p );
7310 for( auto &it : items ) {
7311 if( it.is_bucket() || it.is_watertight_container() ) {
7312 const int capacity = it.get_remaining_capacity_for_liquid( sap, true );
7313 if( capacity > 0 ) {
7314 new_charges = std::min( new_charges, capacity );
7315
7316 // The environment might have poisoned the sap with animals passing by, insects, leaves or contaminants in the ground
7317 sap.poison = one_in( 10 ) ? 1 : 0;
7318 sap.charges = new_charges;
7319
7320 it.fill_with( sap );
7321 }
7322 // Only fill up the first container.
7323 break;
7324 }
7325 }
7326}
time_duration time_past_new_year(const time_point &p)
Definition: calendar.h:502
A point in the game time.
Definition: calendar.h:431
ter_id t_tree_maple_tapped
Definition: mapdata.cpp:681
time_duration year_length()
Definition: calendar.cpp:461
time_duration season_length()
Definition: calendar.cpp:466

References item::charges, i_at(), one_in(), item::poison, roll_remainder(), calendar::season_length(), t_tree_maple_tapped, ter(), time_past_new_year(), calendar::turn, and calendar::year_length().

Referenced by actualize().

◆ propagate_field()

void map::propagate_field ( const tripoint center,
const field_type_id type,
int  amount,
int  max_intensity = 0 
)

Definition at line 1941 of file map_field.cpp.

1943{
1944 using gas_blast = std::pair<float, tripoint>;
1945 std::priority_queue<gas_blast, std::vector<gas_blast>, pair_greater_cmp_first> open;
1946 std::set<tripoint> closed;
1947 open.push( { 0.0f, center } );
1948
1949 const bool not_gas = type.obj().phase != GAS;
1950
1951 while( amount > 0 && !open.empty() ) {
1952 if( closed.count( open.top().second ) ) {
1953 open.pop();
1954 continue;
1955 }
1956
1957 // All points with equal gas intensity should propagate at the same time
1958 std::list<gas_blast> gas_front;
1959 gas_front.push_back( open.top() );
1960 const int cur_intensity = get_field_intensity( open.top().second, type );
1961 open.pop();
1962 while( !open.empty() && get_field_intensity( open.top().second, type ) == cur_intensity ) {
1963 if( closed.count( open.top().second ) == 0 ) {
1964 gas_front.push_back( open.top() );
1965 }
1966
1967 open.pop();
1968 }
1969
1970 int increment = std::max<int>( 1, amount / gas_front.size() );
1971
1972 while( !gas_front.empty() ) {
1973 gas_blast gp = random_entry_removed( gas_front );
1974 closed.insert( gp.second );
1975 const int cur_intensity = get_field_intensity( gp.second, type );
1976 if( cur_intensity < max_intensity ) {
1977 const int bonus = std::min( max_intensity - cur_intensity, increment );
1978 mod_field_intensity( gp.second, type, bonus );
1979 amount -= bonus;
1980 } else {
1981 amount--;
1982 }
1983
1984 if( amount <= 0 ) {
1985 return;
1986 }
1987
1988 static const std::array<int, 8> x_offset = {{ -1, 1, 0, 0, 1, -1, -1, 1 }};
1989 static const std::array<int, 8> y_offset = {{ 0, 0, -1, 1, -1, 1, -1, 1 }};
1990 for( size_t i = 0; i < 8; i++ ) {
1991 tripoint pt = gp.second + point( x_offset[ i ], y_offset[ i ] );
1992 if( closed.count( pt ) > 0 ) {
1993 continue;
1994 }
1995
1996 if( impassable( pt ) && ( not_gas || !has_flag( TFLAG_PERMEABLE, pt ) ) ) {
1997 closed.insert( pt );
1998 continue;
1999 }
2000 if( !obstructed_by_vehicle_rotation( gp.second, pt ) ) {
2001 open.push( { static_cast<float>( rl_dist( center, pt ) ), pt } );
2002 }
2003 }
2004 }
2005 }
2006}
@ GAS
Definition: enums.h:175
Greater-than comparison operator; required by the sort interface.
Definition: cata_utility.h:16

References center, GAS, get_field_intensity(), has_flag(), impassable(), mod_field_intensity(), obstructed_by_vehicle_rotation(), open(), random_entry_removed(), rl_dist(), TFLAG_PERMEABLE, and type.

Referenced by computer_session::action_irradiator(), and emit_field().

◆ propagate_suspension_check()

void map::propagate_suspension_check ( const tripoint point)

Checks surrounding tiles for suspension, and has them check for collapse.

!!Should only be called after the tile at this point has been destroyed!!

Definition at line 2940 of file map.cpp.

2941{
2942 for( const tripoint &neighbor : points_in_radius( point, 1 ) ) {
2943 if( neighbor != point && has_flag( TFLAG_SUSPENDED, neighbor ) ) {
2944 collapse_invalid_suspension( neighbor );
2945 }
2946 }
2947}

References collapse_invalid_suspension(), has_flag(), points_in_radius(), and TFLAG_SUSPENDED.

Referenced by bash_ter_success(), collapse_at(), and collapse_invalid_suspension().

◆ put_items_from_loc()

std::vector< item * > map::put_items_from_loc ( const item_group_id loc,
const tripoint p,
const time_point turn = calendar::start_of_cataclysm 
)

Place items from an item group at p.

Places as much items as the item group says. (Most item groups are distributions and will only create one item.)

Parameters
locCurrent location of items
pDestination of items
turnThe birthday that the created items shall have.
Returns
Vector of pointers to placed items (can be empty, but no nulls).

Definition at line 5571 of file mapgen.cpp.

5573{
5574 const auto items = item_group::items_from( loc, turn );
5575 return spawn_items( p, items );
5576}

References item_group::items_from(), spawn_items(), and calendar::turn.

Referenced by add_corpse(), activity_handlers::forage_finish(), mapgen_cavern(), MapExtras::mx_corpses(), MapExtras::mx_grave(), MapExtras::mx_mayhem(), MapExtras::mx_minefield(), and place_items().

◆ rad_scorch()

void map::rad_scorch ( const tripoint p,
const time_duration time_since_last_actualize 
)
protected

Radiation-related plant (and fungus?) death.

Definition at line 7328 of file map.cpp.

7329{
7330 const int rads = get_radiation( p );
7331 if( rads == 0 ) {
7332 return;
7333 }
7334
7335 // TODO: More interesting rad scorch chance - base on season length?
7336 if( !x_in_y( 1.0 * rads * rads * time_since_last_actualize, 91_days ) ) {
7337 return;
7338 }
7339
7340 // First destroy the farmable plants (those are furniture)
7341 // TODO: Rad-resistant mutant plants (that produce radioactive fruit)
7342 const furn_t &fid = furn( p ).obj();
7343 if( fid.has_flag( "PLANT" ) ) {
7344 i_clear( p );
7345 furn_set( p, f_null );
7346 }
7347
7348 const ter_id tid = ter( p );
7349 // TODO: De-hardcode this
7350 static const std::map<ter_id, ter_str_id> dies_into {{
7351 {t_grass, ter_str_id( "t_dirt" )},
7352 {t_tree_young, ter_str_id( "t_dirt" )},
7353 {t_tree_pine, ter_str_id( "t_tree_deadpine" )},
7354 {t_tree_birch, ter_str_id( "t_tree_birch_harvested" )},
7355 {t_tree_willow, ter_str_id( "t_tree_willow_harvested" )},
7356 {t_tree_hickory, ter_str_id( "t_tree_hickory_dead" )},
7357 {t_tree_hickory_harvested, ter_str_id( "t_tree_hickory_dead" )},
7358 }};
7359
7360 const auto iter = dies_into.find( tid );
7361 if( iter != dies_into.end() ) {
7362 ter_set( p, iter->second );
7363 return;
7364 }
7365
7366 const ter_t &tr = tid.obj();
7367 if( tr.has_flag( "SHRUB" ) ) {
7368 ter_set( p, t_dirt );
7369 } else if( tr.has_flag( "TREE" ) ) {
7370 ter_set( p, ter_str_id( "t_tree_dead" ) );
7371 }
7372}
int get_radiation(const tripoint &p) const
Definition: map.cpp:4015
ter_id t_tree_hickory_harvested
Definition: mapdata.cpp:682
ter_id t_tree_willow
Definition: mapdata.cpp:681
ter_id t_tree_birch
Definition: mapdata.cpp:681
ter_id t_tree_pine
Definition: mapdata.cpp:681
ter_id t_tree_young
Definition: mapdata.cpp:677
ter_id t_tree_hickory
Definition: mapdata.cpp:682
string_id< ter_t > ter_str_id
Definition: mapdata.h:24

References f_null, furn(), furn_set(), get_radiation(), map_data_common_t::has_flag(), i_clear(), int_id< T >::obj(), t_dirt, t_grass, t_tree_birch, t_tree_hickory, t_tree_hickory_harvested, t_tree_pine, t_tree_willow, t_tree_young, ter(), ter_set(), and x_in_y().

Referenced by actualize().

◆ random_outdoor_tile()

point map::random_outdoor_tile ( )

Definition at line 2727 of file map.cpp.

2728{
2729 std::vector<point> options;
2730 for( const tripoint &p : points_on_zlevel() ) {
2731 if( is_outside( p.xy() ) ) {
2732 options.push_back( p.xy() );
2733 }
2734 }
2736}
std::string options()
Definition: path_info.cpp:238

References is_outside(), PATH_INFO::options(), point_north_west, points_on_zlevel(), and random_entry().

◆ ranged_target_size()

double map::ranged_target_size ( const tripoint p) const

Size of map objects at p for purposes of ranged combat.

Size is in percentage of tile: if 1.0, all attacks going through tile should hit map objects on it, if 0.0 there is nothing to be hit (air/water).

Definition at line 1952 of file map.cpp.

1953{
1954 if( impassable( p ) ) {
1955 return 1.0;
1956 }
1957
1958 if( !has_floor( p ) ) {
1959 return 0.0;
1960 }
1961
1962 // TODO: Handle cases like shrubs, trees, furniture, sandbags...
1963 return 0.1;
1964}

References has_floor(), and impassable().

Referenced by projectile_attack().

◆ reachable_flood_steps()

void map::reachable_flood_steps ( std::vector< tripoint > &  reachable_pts,
const tripoint f,
int  range,
int  cost_min,
int  cost_max 
) const

Populates a vector of points that are reachable within a number of steps from a point.

It could be generalized to take advantage of z levels, but would need some additional code to detect whether a valid transition was on a tile.

Does the following:

  1. Checks if a point is reachable using a flood fill and if it is, adds it to a vector.

Definition at line 6276 of file map.cpp.

6278{
6279 struct pq_item {
6280 int dist;
6281 int ndx;
6282 };
6283 struct pq_item_comp {
6284 bool operator()( const pq_item &left, const pq_item &right ) {
6285 return left.dist > right.dist;
6286 }
6287 };
6288 using PQ_type = std::priority_queue< pq_item, std::vector<pq_item>, pq_item_comp>;
6289
6290 // temp buffer for grid
6291 const int grid_dim = range * 2 + 1;
6292 // init to -1 as "not visited yet"
6293 std::vector< int > t_grid( static_cast<size_t>( grid_dim * grid_dim ), -1 );
6294 const tripoint origin_offset = {range, range, 0};
6295 const int initial_visit_distance = range * range; // Large unreachable value
6296
6297 // Fill positions that are visitable with initial_visit_distance
6298 for( const tripoint &p : points_in_radius( f, range ) ) {
6299 const tripoint tp = { p.xy(), f.z };
6300 const int tp_cost = move_cost( tp );
6301 // rejection conditions
6302 if( tp_cost < cost_min || tp_cost > cost_max || !has_floor_or_support( tp ) ) {
6303 continue;
6304 }
6305 // set initial cost for grid point
6306 tripoint origin_relative = tp - f;
6307 origin_relative += origin_offset;
6308 int ndx = origin_relative.x + origin_relative.y * grid_dim;
6309 t_grid[ ndx ] = initial_visit_distance;
6310 }
6311
6312 auto gen_neighbors = []( const pq_item & elem, int grid_dim, pq_item * neighbors ) {
6313 // Up to 8 neighbors
6314 int new_cost = elem.dist + 1;
6315 // *INDENT-OFF*
6316 int ox[8] = {
6317 -1, 0, 1,
6318 -1, 1,
6319 -1, 0, 1
6320 };
6321 int oy[8] = {
6322 -1, -1, -1,
6323 0, 0,
6324 1, 1, 1
6325 };
6326 // *INDENT-ON*
6327
6328 point e( elem.ndx % grid_dim, elem.ndx / grid_dim );
6329 for( int i = 0; i < 8; ++i ) {
6330 point n( e + point( ox[i], oy[i] ) );
6331
6332 int ndx = n.x + n.y * grid_dim;
6333 neighbors[i] = { new_cost, ndx };
6334 }
6335 };
6336
6337 PQ_type pq( pq_item_comp{} );
6338 pq_item first_item{ 0, range + range * grid_dim };
6339 pq.push( first_item );
6340 pq_item neighbor_elems[8];
6341
6342 while( !pq.empty() ) {
6343 const pq_item item = pq.top();
6344 pq.pop();
6345
6346 if( t_grid[ item.ndx ] == initial_visit_distance ) {
6347 t_grid[ item.ndx ] = item.dist;
6348 if( item.dist + 1 < range ) {
6349 gen_neighbors( item, grid_dim, neighbor_elems );
6350 for( pq_item neighbor_elem : neighbor_elems ) {
6351 pq.push( neighbor_elem );
6352 }
6353 }
6354 }
6355 }
6356 std::vector<char> o_grid( static_cast<size_t>( grid_dim * grid_dim ), 0 );
6357 for( int y = 0, ndx = 0; y < grid_dim; ++y ) {
6358 for( int x = 0; x < grid_dim; ++x, ++ndx ) {
6359 if( t_grid[ ndx ] != -1 && t_grid[ ndx ] < initial_visit_distance ) {
6360 // set self and neighbors to 1
6361 for( int dy = -1; dy <= 1; ++dy ) {
6362 for( int dx = -1; dx <= 1; ++dx ) {
6363 int tx = dx + x;
6364 int ty = dy + y;
6365
6366 if( tx >= 0 && tx < grid_dim && ty >= 0 && ty < grid_dim ) {
6367 o_grid[ tx + ty * grid_dim ] = 1;
6368 }
6369 }
6370 }
6371 }
6372 }
6373 }
6374
6375 // Now go over again to pull out all of the reachable points
6376 for( int y = 0, ndx = 0; y < grid_dim; ++y ) {
6377 for( int x = 0; x < grid_dim; ++x, ++ndx ) {
6378 if( o_grid[ ndx ] ) {
6379 tripoint t = f - origin_offset + tripoint{ x, y, 0 };
6380 reachable_pts.push_back( t );
6381 }
6382 }
6383 }
6384}

References has_floor_or_support(), left, move_cost(), points_in_radius(), right, point::x, tripoint::x, tripoint::xy(), point::y, tripoint::y, and tripoint::z.

Referenced by inventory::form_from_map(), and use_charges().

◆ register_vehicle_zone()

void map::register_vehicle_zone ( vehicle veh,
int  zlev 
)

Definition at line 954 of file map.cpp.

955{
956 auto &ch = get_cache( zlev );
957 ch.zone_vehicles.insert( veh );
958}

References get_cache().

Referenced by zone_manager::create_vehicle_loot_zone(), and zone_manager::revert_vzones().

◆ remove_field()

void map::remove_field ( const tripoint p,
const field_type_id field_to_remove 
)

Remove field entry at xy, ignored if the field entry is not present.

Definition at line 5445 of file map.cpp.

5446{
5447 if( !inbounds( p ) ) {
5448 return;
5449 }
5450
5451 point l;
5452 submap *const current_submap = get_submap_at( p, l );
5453
5454 if( current_submap->get_field( l ).remove_field( field_to_remove ) ) {
5455 // Only adjust the count if the field actually existed.
5456 if( !--current_submap->field_count ) {
5457 get_cache( p.z ).field_cache.set( static_cast<size_t>( p.x / SEEX + ( (
5458 p.y / SEEX ) * MAPSIZE ) ) );
5459 }
5460 const auto &fdata = field_to_remove.obj();
5461 if( fdata.dirty_transparency_cache || !fdata.is_transparent() ) {
5464 }
5465 if( fdata.is_dangerous() ) {
5467 }
5468 }
5469}

References level_cache::field_cache, submap::field_count, get_cache(), submap::get_field(), get_submap_at(), inbounds(), MAPSIZE, int_id< T >::obj(), field::remove_field(), SEEX, set_pathfinding_cache_dirty(), set_seen_cache_dirty(), set_transparency_cache_dirty(), tripoint::x, tripoint::y, and tripoint::z.

Referenced by computer_session::action_deactivate_shock_vent(), bash_field(), editmap::edit_fld(), iexamine::fireplace(), game::grabbed_furn_move(), MapExtras::mx_house_spider(), MapExtras::mx_spider(), game::process_artifact(), set_field_intensity(), shoot(), smash(), and game::walk_move().

◆ remove_rotten_items()

template<typename Container >
void map::remove_rotten_items ( Container &  items,
const tripoint p 
)
protected

Go through the list of items, update their rotten status and remove items that have rotten away completely.

Parameters
itemsitems to remove
pThe point on this map where the items are, used for rot calculation.

Definition at line 7077 of file map.cpp.

7078{
7079 for( auto it = items.begin(); it != items.end(); ) {
7080 if( it->has_rotten_away( pnt ) ) {
7081 if( it->is_comestible() ) {
7082 rotten_item_spawn( *it, pnt );
7083 }
7084 it = i_rem( pnt, it );
7085 } else {
7086 ++it;
7087 }
7088 }
7089}

References i_rem(), and rotten_item_spawn().

Referenced by actualize().

◆ remove_submap_camp()

void map::remove_submap_camp ( const tripoint p)

Definition at line 5560 of file map.cpp.

5561{
5562 get_submap_at( p )->camp.reset();
5563}

References submap::camp, and get_submap_at().

Referenced by basecamp::abandon_camp(), and game::validate_camps().

◆ remove_trap()

void map::remove_trap ( const tripoint p)

Definition at line 5253 of file map.cpp.

5254{
5255 if( !inbounds( p ) ) {
5256 return;
5257 }
5258
5259 point l;
5260 submap *const current_submap = get_submap_at( p, l );
5261
5262 trap_id tid = current_submap->get_trap( l );
5263 if( tid != tr_null ) {
5264 if( g != nullptr && this == &get_map() ) {
5265 g->u.add_known_trap( p, tr_null.obj() );
5266 }
5267
5268 current_submap->set_trap( l, tr_null );
5269 auto &traps = traplocs[tid.to_i()];
5270 const auto iter = std::find( traps.begin(), traps.end(), p );
5271 if( iter != traps.end() ) {
5272 traps.erase( iter );
5273 }
5274 }
5275}
void set_trap(const point &p, trap_id trap)
Definition: submap.h:77
FMT_CONSTEXPR bool find(Ptr first, Ptr last, T value, Ptr &out)

References detail::find(), g, get_map(), get_submap_at(), submap::get_trap(), inbounds(), int_id< T >::obj(), submap::set_trap(), int_id< T >::to_i(), tr_null, and traplocs.

Referenced by complete_construction(), vehicle::handle_trap(), trapfunc::map_regen(), mremove_trap(), trap::on_disarmed(), game::process_artifact(), and trap_set().

◆ reset_vehicle_cache()

void map::reset_vehicle_cache ( )

Definition at line 252 of file map.cpp.

253{
256
257 // Cache all vehicles
258 const int zmin = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
259 const int zmax = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
260 for( int zlev = zmin; zlev <= zmax; zlev++ ) {
261 auto &ch = get_cache( zlev );
262 for( const auto &elem : ch.vehicle_list ) {
263 elem->adjust_zlevel( 0, tripoint_zero );
264 add_vehicle_to_cache( elem );
265 }
266 }
267}
void clear_vehicle_cache()
Definition: map.cpp:311

References abs_sub, add_vehicle_to_cache(), clear_vehicle_cache(), get_cache(), last_full_vehicle_list_dirty, OVERMAP_DEPTH, OVERMAP_HEIGHT, tripoint_zero, tripoint::z, and zlevels.

Referenced by veh_interact::complete_vehicle(), detach_vehicle(), editmap::draw_main_ui_overlay(), load(), loadn(), editmap::mapgen_preview(), editmap::mapgen_veh_destroy(), rotate(), shift(), and vehicle::use_bike_rack().

◆ restock_fruits()

void map::restock_fruits ( const tripoint p,
const time_duration time_since_last_actualize 
)
protected

Try to grow fruits on static plants (not planted by the player)

Parameters
pPlace to restock
time_since_last_actualizeTime since this function has been called the last time.

Definition at line 7217 of file map.cpp.

7218{
7219 const auto &ter = this->ter( p ).obj();
7220 if( !ter.has_flag( TFLAG_HARVESTED ) ) {
7221 return; // Already harvestable. Do nothing.
7222 }
7223 // Make it harvestable again if the last actualization was during a different season or year.
7224 const time_point last_touched = calendar::turn - time_since_last_actualize;
7225 if( season_of_year( calendar::turn ) != season_of_year( last_touched ) ||
7226 time_since_last_actualize >= calendar::season_length() ) {
7227 ter_set( p, ter.transforms_into );
7228 }
7229}
season_type season_of_year(const time_point &p)
Definition: calendar.cpp:547

References int_id< T >::obj(), calendar::season_length(), season_of_year(), ter(), ter_set(), TFLAG_HARVESTED, and calendar::turn.

Referenced by actualize(), and saven().

◆ rotate()

void map::rotate ( int  turns,
bool  setpos_safe = false 
)

Rotates this map, and all of its contents, by the specified multiple of 90 degrees.

Parameters
turnsHow many 90-degree turns to rotate the map.

Definition at line 5798 of file mapgen.cpp.

5799{
5800
5801 //Handle anything outside the 1-3 range gracefully; rotate(0) is a no-op.
5802 turns = turns % 4;
5803 if( turns == 0 ) {
5804 return;
5805 }
5806
5807 real_coords rc;
5808 const tripoint &abs_sub = get_abs_sub();
5809 rc.fromabs( point( abs_sub.x * SEEX, abs_sub.y * SEEY ) );
5810
5811 // TODO: This radius can be smaller - how small?
5812 const int radius = HALF_MAPSIZE + 3;
5813 // uses submap coordinates
5814 // TODO: fix point types
5815 const std::vector<shared_ptr_fast<npc>> npcs =
5817 for( const shared_ptr_fast<npc> &i : npcs ) {
5818 npc &np = *i;
5819 const tripoint sq = np.global_square_location();
5820 const point local_sq = getlocal( sq ).xy();
5821
5822 real_coords np_rc;
5823 np_rc.fromabs( sq.xy() );
5824 // Note: We are rotating the entire overmap square (2x2 of submaps)
5825 if( np_rc.om_pos != rc.om_pos || sq.z != abs_sub.z ) {
5826 continue;
5827 }
5828
5829 // OK, this is ugly: we remove the NPC from the whole map
5830 // Then we place it back from scratch
5831 // It could be rewritten to utilize the fact that rotation shouldn't cross overmaps
5832
5833 point old( np_rc.sub_pos );
5834 if( np_rc.om_sub.x % 2 != 0 ) {
5835 old.x += SEEX;
5836 }
5837 if( np_rc.om_sub.y % 2 != 0 ) {
5838 old.y += SEEY;
5839 }
5840
5841 const point new_pos = old .rotate( turns, { SEEX * 2, SEEY * 2 } );
5842 if( setpos_safe ) {
5843 // setpos can't be used during mapgen, but spawn_at_precise clips position
5844 // to be between 0-11,0-11 and teleports NPCs when used inside of update_mapgen
5845 // calls
5846 const tripoint new_global_sq = sq - local_sq + new_pos;
5847 np.setpos( get_map().getlocal( new_global_sq ) );
5848 } else {
5849 // OK, this is ugly: we remove the NPC from the whole map
5850 // Then we place it back from scratch
5851 // It could be rewritten to utilize the fact that rotation shouldn't cross overmaps
5853 np.spawn_at_precise( { abs_sub.xy() }, { new_pos, abs_sub.z } );
5855 }
5856 }
5857
5860
5861 // Move the submaps around.
5862 if( turns == 2 ) {
5865 } else {
5866 point p;
5867 submap tmp;
5868
5870
5871 for( int k = 0; k < 4; ++k ) {
5872 p = p.rotate( turns, { 2, 2 } );
5874 }
5875 }
5876
5877 // Then rotate them and recalculate vehicle positions.
5878 for( int j = 0; j < 2; ++j ) {
5879 for( int i = 0; i < 2; ++i ) {
5880 point p( i, j );
5881 auto sm = get_submap_at_grid( p );
5882
5883 sm->rotate( turns );
5884
5885 for( auto &veh : sm->vehicles ) {
5886 veh->sm_pos = tripoint( p, abs_sub.z );
5887 }
5888
5890 }
5891 }
5893
5894 // rotate zones
5896 mgr.rotate_zones( *this, turns );
5897}
shared_ptr_fast< npc > npc_ptr
Definition: basecamp.h:46
character_id getID() const
Definition: character.cpp:477
void clear_vehicle_list(int zlev)
Definition: map.cpp:329
void spawn_at_precise(const point &submap_offset, const tripoint &square)
As spawn_at, but also sets position within the submap.
Definition: npc.cpp:729
void setpos(const tripoint &pos) override
Note: this places NPC on a given position in CURRENT MAP coordinates.
Definition: npc.cpp:681
tripoint global_square_location() const override
Global position, expressed in map square coordinate system (the most detailed coordinate system),...
Definition: npc.cpp:739
std::vector< shared_ptr_fast< npc > > get_npcs_near(const tripoint_abs_sm &p, int radius)
Get all npcs in a area with given radius around given central point.
shared_ptr_fast< npc > remove_npc(const character_id &id)
Find npc by id and if found, erase it from the npc list and return it ( or return nullptr if not foun...
void rotate_zones(map &target_map, int turns)
Definition: clzones.cpp:1052
coords::coord_point< tripoint, coords::origin::abs, coords::sm > tripoint_abs_sm
Definition: coordinates.h:490
static constexpr int HALF_MAPSIZE
void swap(colony< element_type, element_allocator_type, element_skipfield_type > &a, colony< element_type, element_allocator_type, element_skipfield_type > &b) COLONY_NOEXCEPT_SWAP(element_allocator_type)
Swaps colony A's contents with that of colony B.
Definition: colony.h:3496
point rotate(int turns, const point &dim={ 1, 1 }) const
Rotate point clockwise.
Definition: point.h:89
point om_sub
Definition: coordinates.h:638
void fromabs(const point &abs)
Definition: coordinates.h:646
point om_pos
Definition: coordinates.h:637
point sub_pos
Definition: coordinates.h:635

References abs_sub, clear_vehicle_cache(), clear_vehicle_list(), real_coords::fromabs(), get_abs_sub(), zone_manager::get_manager(), get_map(), overmapbuffer::get_npcs_near(), get_submap_at_grid(), Character::getID(), getlocal(), npc::global_square_location(), HALF_MAPSIZE, overmapbuffer::insert_npc(), real_coords::om_pos, real_coords::om_sub, overmap_buffer, point_east, point_south, point_south_east, point_zero, overmapbuffer::remove_npc(), reset_vehicle_cache(), point::rotate(), zone_manager::rotate_zones(), SEEX, SEEY, npc::setpos(), coords::sm, npc::spawn_at_precise(), real_coords::sub_pos, cata::swap(), update_vehicle_list(), point::x, tripoint::x, tripoint::xy(), point::y, tripoint::y, and tripoint::z.

Referenced by draw_connections(), draw_lab(), draw_office_tower(), draw_triffid(), mapgen_function_json::generate(), mapgen_ants_curved(), mapgen_ants_straight(), mapgen_ants_tee(), mapgen_forest_trail_curved(), mapgen_forest_trail_straight(), mapgen_forest_trail_tee(), mapgen_highway(), mapgen_parking_lot(), editmap::mapgen_preview(), mapgen_railroad(), mapgen_railroad_bridge(), mapgen_river_curved(), mapgen_river_curved_not(), mapgen_river_straight(), mapgen_road(), mapgen_rotate(), mapgen_sewer_curved(), mapgen_sewer_straight(), mapgen_sewer_tee(), mapgen_subway(), and update_mapgen_function_json::update_map().

◆ rotten_item_spawn()

void map::rotten_item_spawn ( const item item,
const tripoint p 
)

Checks to see if the item that is rotting away generates a creature when it does.

Parameters
itemitem that is spawning creatures
pThe point on this map where the item is and creature will be

Definition at line 7091 of file map.cpp.

7092{
7093 if( g->critter_at( pnt ) != nullptr ) {
7094 return;
7095 }
7096 const auto &comest = item.get_comestible();
7097 mongroup_id mgroup = comest->rot_spawn;
7098 if( !mgroup ) {
7099 return;
7100 }
7101 const int chance = static_cast<int>( comest->rot_spawn_chance *
7102 get_option<float>( "CARRION_SPAWNRATE" ) );
7103 if( rng( 0, 100 ) < chance ) {
7105 add_spawn( spawn_details.name, 1, pnt, false );
7106 if( g->u.sees( pnt ) ) {
7107 if( item.is_seed() ) {
7108 add_msg( m_warning, _( "Something has crawled out of the %s plants!" ), item.get_plant_name() );
7109 } else {
7110 add_msg( m_warning, _( "Something has crawled out of the %s!" ), item.tname() );
7111 }
7112 }
7113 }
7114}
const cata::value_ptr< islot_comestible > & get_comestible() const
Definition: item.cpp:9972
std::string get_plant_name() const
The name of the plant as it appears in the various informational menus.
Definition: item.cpp:9641
bool is_seed() const
Whether this is actually a seed, the seed functions won't be of much use for non-seeds.
Definition: item.cpp:9622

References _, add_msg(), add_spawn(), g, item::get_comestible(), item::get_plant_name(), MonsterGroupManager::GetResultFromGroup(), item::is_seed(), m_warning, MonsterGroupResult::name, rng(), and item::tname().

Referenced by grow_plant(), and remove_rotten_items().

◆ route()

std::vector< tripoint > map::route ( const tripoint f,
const tripoint t,
const pathfinding_settings settings,
const std::set< tripoint > &  pre_closed = {{ }} 
) const

Calculate the best path using A*.

Parameters
fThe source location from which to path.
tThe destination to which to path.
settingsStructure describing pathfinding parameters.
pre_closedNever path through those points. They can still be the source or the destination.

Definition at line 194 of file pathfinding.cpp.

197{
198 /* TODO: If the origin or destination is out of bound, figure out the closest
199 * in-bounds point and go to that, then to the real origin/destination.
200 */
201 std::vector<tripoint> ret;
202
203 if( f == t || !inbounds( f ) ) {
204 return ret;
205 }
206
207 if( !inbounds( t ) ) {
208 tripoint clipped = t;
209 clip_to_bounds( clipped );
210 return route( f, clipped, settings, pre_closed );
211 }
212 // First, check for a simple straight line on flat ground
213 // Except when the line contains a pre-closed tile - we need to do regular pathing then
214 static const auto non_normal = PF_SLOW | PF_WALL | PF_VEHICLE | PF_TRAP | PF_SHARP;
215 if( f.z == t.z ) {
216 const auto line_path = line_to( f, t );
217 const auto &pf_cache = get_pathfinding_cache_ref( f.z );
218 // Check all points for any special case (including just hard terrain)
219 if( std::all_of( line_path.begin(), line_path.end(), [&pf_cache]( const tripoint & p ) {
220 return !( pf_cache.special[p.x][p.y] & non_normal );
221 } ) ) {
222 const std::set<tripoint> sorted_line( line_path.begin(), line_path.end() );
223
224 if( is_disjoint( sorted_line, pre_closed ) ) {
225 return line_path;
226 }
227 }
228 }
229
230 // If expected path length is greater than max distance, allow only line path, like above
231 if( rl_dist( f, t ) > settings.max_dist ) {
232 return ret;
233 }
234
235 int max_length = settings.max_length;
236 int bash = settings.bash_strength;
237 int climb_cost = settings.climb_cost;
238 bool doors = settings.allow_open_doors;
239 bool trapavoid = settings.avoid_traps;
240 bool roughavoid = settings.avoid_rough_terrain;
241 bool sharpavoid = settings.avoid_sharp;
242
243 const int pad = 16; // Should be much bigger - low value makes pathfinders dumb!
244 int minx = std::min( f.x, t.x ) - pad;
245 int miny = std::min( f.y, t.y ) - pad;
246 // TODO: Make this way bigger
247 int minz = std::min( f.z, t.z );
248 int maxx = std::max( f.x, t.x ) + pad;
249 int maxy = std::max( f.y, t.y ) + pad;
250 // Same TODO: as above
251 int maxz = std::max( f.z, t.z );
252 clip_to_bounds( minx, miny, minz );
253 clip_to_bounds( maxx, maxy, maxz );
254
255 pathfinder pf( point( minx, miny ), point( maxx, maxy ) );
256 // Make NPCs not want to path through player
257 // But don't make player pathing stop working
258 for( const auto &p : pre_closed ) {
259 if( p.x >= minx && p.x < maxx && p.y >= miny && p.y < maxy ) {
260 pf.close_point( p );
261 }
262 }
263
264 // Start and end must not be closed
265 pf.unclose_point( f );
266 pf.unclose_point( t );
267 pf.add_point( 0, 0, f, f );
268
269 bool done = false;
270
271 do {
272 auto cur = pf.get_next();
273
274 const int parent_index = flat_index( cur );
275 auto &layer = pf.get_layer( cur.z );
276 auto &cur_state = layer.state[parent_index];
277 if( cur_state == ASL_CLOSED ) {
278 continue;
279 }
280
281 if( layer.gscore[parent_index] > max_length ) {
282 // Shortest path would be too long, return empty vector
283 return std::vector<tripoint>();
284 }
285
286 if( cur == t ) {
287 done = true;
288 break;
289 }
290
291 cur_state = ASL_CLOSED;
292
293 const auto &pf_cache = get_pathfinding_cache_ref( cur.z );
294 const auto cur_special = pf_cache.special[cur.x][cur.y];
295
296 int cur_part;
297 const vehicle *cur_veh = veh_at_internal( cur, cur_part );
298
299 // 7 3 5
300 // 1 . 2
301 // 6 4 8
302 constexpr std::array<int, 8> x_offset{{ -1, 1, 0, 0, 1, -1, -1, 1 }};
303 constexpr std::array<int, 8> y_offset{{ 0, 0, -1, 1, -1, 1, -1, 1 }};
304 for( size_t i = 0; i < 8; i++ ) {
305 const tripoint p( cur.x + x_offset[i], cur.y + y_offset[i], cur.z );
306 const int index = flat_index( p );
307
308 // TODO: Remove this and instead have sentinels at the edges
309 if( p.x < minx || p.x >= maxx || p.y < miny || p.y >= maxy ) {
310 continue;
311 }
312
313 if( layer.state[index] == ASL_CLOSED ) {
314 continue;
315 }
316
317 // Penalize for diagonals or the path will look "unnatural"
318 int newg = layer.gscore[parent_index] + ( ( cur.x != p.x && cur.y != p.y ) ? 1 : 0 );
319
320 const auto p_special = pf_cache.special[p.x][p.y];
321 // TODO: De-uglify, de-huge-n
322 if( !( p_special & non_normal ) ) {
323 // Boring flat dirt - the most common case above the ground
324 newg += 2;
325 } else {
326 if( roughavoid ) {
327 layer.state[index] = ASL_CLOSED; // Close all rough terrain tiles
328 continue;
329 }
330
331 int part = -1;
332 const maptile &tile = maptile_at_internal( p );
333 const auto &terrain = tile.get_ter_t();
334 const auto &furniture = tile.get_furn_t();
335 const vehicle *veh = veh_at_internal( p, part );
336
337 const int cost = move_cost_internal( furniture, terrain, veh, part );
338 // Don't calculate bash rating unless we intend to actually use it
339 const int rating = ( bash == 0 || cost != 0 ) ? -1 :
340 bash_rating_internal( bash, furniture, terrain, false, veh, part );
341
342 if( cost == 0 && rating <= 0 && ( !doors || !terrain.open || !furniture.open ) && veh == nullptr &&
343 climb_cost <= 0 ) {
344 layer.state[index] = ASL_CLOSED; // Close it so that next time we won't try to calculate costs
345 continue;
346 }
347
348 if( cur_veh &&
349 !cur_veh->allowed_move( cur_veh->tripoint_to_mount( cur ), cur_veh->tripoint_to_mount( p ) ) ) {
350 //Trying to squeeze through a vehicle hole, skip this movement but don't close the tile as other paths may lead to it
351 continue;
352 }
353
354 if( veh && veh != cur_veh &&
355 !veh->allowed_move( veh->tripoint_to_mount( cur ), veh->tripoint_to_mount( p ) ) ) {
356 //Same as above but moving into rather than out of a vehicle
357 continue;
358 }
359
360 newg += cost;
361 if( cost == 0 ) {
362 if( climb_cost > 0 && p_special & PF_CLIMBABLE ) {
363 // Climbing fences
364 newg += climb_cost;
365 } else if( doors && ( terrain.open || furniture.open ) &&
366 ( !terrain.has_flag( "OPENCLOSE_INSIDE" ) || !furniture.has_flag( "OPENCLOSE_INSIDE" ) ||
367 !is_outside( cur ) ) ) {
368 // Only try to open INSIDE doors from the inside
369 // To open and then move onto the tile
370 newg += 4;
371 } else if( veh != nullptr ) {
372 const auto vpobst = vpart_position( const_cast<vehicle &>( *veh ), part ).obstacle_at_part();
373 part = vpobst ? vpobst->part_index() : -1;
374 int dummy = -1;
375 if( doors && veh->part_flag( part, VPFLAG_OPENABLE ) &&
376 ( !veh->part_flag( part, "OPENCLOSE_INSIDE" ) ||
377 veh_at_internal( cur, dummy ) == veh ) ) {
378 // Handle car doors, but don't try to path through curtains
379 newg += 10; // One turn to open, 4 to move there
380 } else if( part >= 0 && bash > 0 ) {
381 // Car obstacle that isn't a door
382 // TODO: Account for armor
383 int hp = veh->cpart( part ).hp();
384 if( hp / 20 > bash ) {
385 // Threshold damage thing means we just can't bash this down
386 layer.state[index] = ASL_CLOSED;
387 continue;
388 } else if( hp / 10 > bash ) {
389 // Threshold damage thing means we will fail to deal damage pretty often
390 hp *= 2;
391 }
392
393 newg += 2 * hp / bash + 8 + 4;
394 } else if( part >= 0 ) {
395 if( !doors || !veh->part_flag( part, VPFLAG_OPENABLE ) ) {
396 // Won't be openable, don't try from other sides
397 layer.state[index] = ASL_CLOSED;
398 }
399
400 continue;
401 }
402 } else if( rating > 1 ) {
403 // Expected number of turns to bash it down, 1 turn to move there
404 // and 5 turns of penalty not to trash everything just because we can
405 newg += ( 20 / rating ) + 2 + 10;
406 } else if( rating == 1 ) {
407 // Desperate measures, avoid whenever possible
408 newg += 500;
409 } else {
410 // Unbashable and unopenable from here
411 if( !doors || !terrain.open || !furniture.open ) {
412 // Or anywhere else for that matter
413 layer.state[index] = ASL_CLOSED;
414 }
415
416 continue;
417 }
418 }
419
420 if( trapavoid && p_special & PF_TRAP ) {
421 const auto &ter_trp = terrain.trap.obj();
422 const auto &trp = ter_trp.is_benign() ? tile.get_trap_t() : ter_trp;
423 if( !trp.is_benign() ) {
424 // For now make them detect all traps
425 if( has_zlevels() && terrain.has_flag( TFLAG_NO_FLOOR ) ) {
426 // Special case - ledge in z-levels
427 // Warning: really expensive, needs a cache
428 if( valid_move( p, tripoint( p.xy(), p.z - 1 ), false, true ) ) {
429 tripoint below( p.xy(), p.z - 1 );
430 if( !has_flag( TFLAG_NO_FLOOR, below ) ) {
431 // Otherwise this would have been a huge fall
432 auto &layer = pf.get_layer( p.z - 1 );
433 // From cur, not p, because we won't be walking on air
434 pf.add_point( layer.gscore[parent_index] + 10,
435 layer.score[parent_index] + 10 + 2 * rl_dist( below, t ),
436 cur, below );
437 }
438
439 // Close p, because we won't be walking on it
440 layer.state[index] = ASL_CLOSED;
441 continue;
442 }
443 } else if( trapavoid ) {
444 // Otherwise it's walkable
445 newg += 500;
446 }
447 }
448 }
449
450 if( sharpavoid && p_special & PF_SHARP ) {
451 layer.state[index] = ASL_CLOSED; // Avoid sharp things
452 }
453
454 }
455
456 // If not visited, add as open
457 // If visited, add it only if we can do so with better score
458 if( layer.state[index] == ASL_NONE || newg < layer.gscore[index] ) {
459 pf.add_point( newg, newg + 2 * rl_dist( p, t ), cur, p );
460 }
461 }
462
463 if( !has_zlevels() || !( cur_special & PF_UPDOWN ) || !settings.allow_climb_stairs ) {
464 // The part below is only for z-level pathing
465 continue;
466 }
467
468 const maptile &parent_tile = maptile_at_internal( cur );
469 const auto &parent_terrain = parent_tile.get_ter_t();
470 if( settings.allow_climb_stairs && cur.z > minz && parent_terrain.has_flag( TFLAG_GOES_DOWN ) ) {
471 tripoint dest( cur.xy(), cur.z - 1 );
472 if( vertical_move_destination<TFLAG_GOES_UP>( *this, dest ) ) {
473 auto &layer = pf.get_layer( dest.z );
474 pf.add_point( layer.gscore[parent_index] + 2,
475 layer.score[parent_index] + 2 * rl_dist( dest, t ),
476 cur, dest );
477 }
478 }
479 if( settings.allow_climb_stairs && cur.z < maxz && parent_terrain.has_flag( TFLAG_GOES_UP ) ) {
480 tripoint dest( cur.xy(), cur.z + 1 );
481 if( vertical_move_destination<TFLAG_GOES_DOWN>( *this, dest ) ) {
482 auto &layer = pf.get_layer( dest.z );
483 pf.add_point( layer.gscore[parent_index] + 2,
484 layer.score[parent_index] + 2 * rl_dist( dest, t ),
485 cur, dest );
486 }
487 }
488 if( cur.z < maxz && parent_terrain.has_flag( TFLAG_RAMP ) &&
489 valid_move( cur, tripoint( cur.xy(), cur.z + 1 ), false, true ) ) {
490 auto &layer = pf.get_layer( cur.z + 1 );
491 for( size_t it = 0; it < 8; it++ ) {
492 const tripoint above( cur.x + x_offset[it], cur.y + y_offset[it], cur.z + 1 );
493 pf.add_point( layer.gscore[parent_index] + 4,
494 layer.score[parent_index] + 4 + 2 * rl_dist( above, t ),
495 cur, above );
496 }
497 }
498 if( cur.z < maxz && parent_terrain.has_flag( TFLAG_RAMP_UP ) &&
499 valid_move( cur, tripoint( cur.xy(), cur.z + 1 ), false, true, true ) ) {
500 auto &layer = pf.get_layer( cur.z + 1 );
501 for( size_t it = 0; it < 8; it++ ) {
502 const tripoint above( cur.x + x_offset[it], cur.y + y_offset[it], cur.z + 1 );
503 pf.add_point( layer.gscore[parent_index] + 4,
504 layer.score[parent_index] + 4 + 2 * rl_dist( above, t ),
505 cur, above );
506 }
507 }
508 if( cur.z > minz && parent_terrain.has_flag( TFLAG_RAMP_DOWN ) &&
509 valid_move( cur, tripoint( cur.xy(), cur.z - 1 ), false, true, true ) ) {
510 auto &layer = pf.get_layer( cur.z - 1 );
511 for( size_t it = 0; it < 8; it++ ) {
512 const tripoint below( cur.x + x_offset[it], cur.y + y_offset[it], cur.z - 1 );
513 pf.add_point( layer.gscore[parent_index] + 4,
514 layer.score[parent_index] + 4 + 2 * rl_dist( below, t ),
515 cur, below );
516 }
517 }
518
519 } while( !done && !pf.empty() );
520
521 if( done ) {
522 ret.reserve( rl_dist( f, t ) * 2 );
523 tripoint cur = t;
524 // Just to limit max distance, in case something weird happens
525 for( int fdist = max_length; fdist != 0; fdist-- ) {
526 const int cur_index = flat_index( cur );
527 const auto &layer = pf.get_layer( cur.z );
528 const tripoint &par = layer.parent[cur_index];
529 if( cur == f ) {
530 break;
531 }
532
533 ret.push_back( cur );
534 // Jumps are acceptable on 1 z-level changes
535 // This is because stairs teleport the player too
536 if( rl_dist( cur, par ) > 1 && std::abs( cur.z - par.z ) != 1 ) {
537 debugmsg( "Jump in our route! %d:%d:%d->%d:%d:%d",
538 cur.x, cur.y, cur.z, par.x, par.y, par.z );
539 return ret;
540 }
541
542 cur = par;
543 }
544
545 std::reverse( ret.begin(), ret.end() );
546 }
547
548 return ret;
549}
bool has_zlevels() const
Definition: map.h:1681
const pathfinding_cache & get_pathfinding_cache_ref(int zlev) const
Definition: map.cpp:8756
point tripoint_to_mount(const tripoint &p) const
Definition: vehicle.cpp:3130
const vehicle_part & cpart(int part_num) const
Definition: vehicle.cpp:7085
bool part_flag(int p, const std::string &f) const
Definition: vehicle.cpp:2911
bool allowed_move(const point &from, const point &to) const
Definition: vehicle.cpp:3220
@ TFLAG_GOES_DOWN
Definition: mapdata.h:308
@ TFLAG_GOES_UP
Definition: mapdata.h:309
Definition: gates.h:28
Definition: overmap.h:50
bool is_disjoint(const Set1 &set1, const Set2 &set2)
constexpr int flat_index(const tripoint &p)
Definition: pathfinding.cpp:34
@ ASL_CLOSED
Definition: pathfinding.cpp:30
@ ASL_NONE
Definition: pathfinding.cpp:28
@ PF_VEHICLE
Definition: pathfinding.h:11
@ PF_WALL
Definition: pathfinding.h:10
@ PF_CLIMBABLE
Definition: pathfinding.h:15
@ PF_UPDOWN
Definition: pathfinding.h:14
@ PF_TRAP
Definition: pathfinding.h:13
@ PF_SHARP
Definition: pathfinding.h:16
@ PF_SLOW
Definition: pathfinding.h:9
const trap & get_trap_t() const
Definition: submap.h:293
@ VPFLAG_OPENABLE
Definition: veh_type.h:44

References pathfinding_settings::allow_climb_stairs, pathfinding_settings::allow_open_doors, vehicle::allowed_move(), ASL_CLOSED, ASL_NONE, pathfinding_settings::avoid_rough_terrain, pathfinding_settings::avoid_sharp, pathfinding_settings::avoid_traps, bash(), bash_rating_internal(), pathfinding_settings::bash_strength, pathfinding_settings::climb_cost, clip_to_bounds(), vehicle::cpart(), debugmsg, detail::digits::done, flat_index(), furniture, maptile::get_furn_t(), get_pathfinding_cache_ref(), maptile::get_ter_t(), maptile::get_trap_t(), has_flag(), has_zlevels(), vehicle_part::hp(), inbounds(), is_disjoint(), is_outside(), line_to(), maptile_at_internal(), pathfinding_settings::max_dist, pathfinding_settings::max_length, move_cost_internal(), vpart_position::obstacle_at_part(), vehicle::part_flag(), PF_CLIMBABLE, PF_SHARP, PF_SLOW, PF_TRAP, PF_UPDOWN, PF_VEHICLE, PF_WALL, cata::hash64_detail::ret, rl_dist(), route(), terrain, TFLAG_GOES_DOWN, TFLAG_GOES_UP, TFLAG_NO_FLOOR, TFLAG_RAMP, TFLAG_RAMP_DOWN, TFLAG_RAMP_UP, vehicle::tripoint_to_mount(), valid_move(), veh_at_internal(), VPFLAG_OPENABLE, tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by activity_on_turn_move_loot(), add_item_or_charges(), npc::go_to_omt_destination(), game::handle_action(), game::list_items(), game::look_around(), perform_zone_activity_turn(), route(), route_adjacent(), activity_handlers::travel_do_turn(), game::try_get_left_click_action(), and npc::update_path().

◆ save()

void map::save ( )

Add currently loaded submaps (in grid) to the mapbuffer.

They will than be stored by that class and can be loaded from that class. This can be called several times, the mapbuffer takes care of adding the same submap several times. It should only be called after the map has been loaded. Submaps that have been loaded from the mapbuffer (and not generated) are already stored in the mapbuffer. TODO: determine if this is really needed? Submaps are already in the mapbuffer if they have been loaded from disc and the are added by map::generate, too. So when do they not appear in the mapbuffer?

Definition at line 6586 of file map.cpp.

6587{
6588 for( int gridx = 0; gridx < my_MAPSIZE; gridx++ ) {
6589 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
6590 if( zlevels ) {
6591 for( int gridz = -OVERMAP_DEPTH; gridz <= OVERMAP_HEIGHT; gridz++ ) {
6592 saven( tripoint( gridx, gridy, gridz ) );
6593 }
6594 } else {
6595 saven( tripoint( gridx, gridy, abs_sub.z ) );
6596 }
6597 }
6598 }
6599}

References abs_sub, my_MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, saven(), tripoint::z, and zlevels.

Referenced by start_location::add_map_extra(), add_monsters(), start_location::burn(), talk_function::buy_100_logs(), talk_function::buy_10_logs(), create_lab_consoles(), construct::done_digormine_stair(), construct::done_mine_upstair(), farm_action(), talk_function::field_build_1(), talk_function::field_build_2(), talk_function::field_harvest(), talk_function::field_plant(), defense_game::init_map(), mission_start::kill_horde_master(), talk_function::loot_building(), om_cutdown_trees(), om_harvest_furn(), om_harvest_itm(), om_harvest_ter(), om_set_hide_site(), mission_start::place_deposit_box(), mission_start::place_dog(), mission_start::place_npc_software(), mission_start::place_priest_diary(), basecamp::place_results(), game::place_vehicle_nearby(), mission_start::place_zombie_mom(), start_location::prepare_map(), mission_start::ranch_nurse_1(), mission_start::ranch_nurse_2(), mission_start::ranch_nurse_3(), mission_start::ranch_nurse_4(), mission_start::ranch_nurse_5(), mission_start::ranch_nurse_6(), mission_start::ranch_nurse_7(), mission_start::ranch_nurse_8(), mission_start::ranch_nurse_9(), mission_start::ranch_scavenger_1(), mission_start::ranch_scavenger_2(), mission_start::ranch_scavenger_3(), mission_start::reveal_lab_train_depot(), game::save_maps(), and debug_menu::spawn_nested_mapgen().

◆ saven()

void map::saven ( const tripoint grid)
protected

Definition at line 6921 of file map.cpp.

6922{
6923 dbg( DL::Debug ) << "map::saven( world=" << abs_sub << ", grid=" << grid << " )";
6924 const int gridn = get_nonant( grid );
6925 submap *submap_to_save = getsubmap( gridn );
6926 if( submap_to_save == nullptr || submap_to_save->get_ter( point_zero ) == t_null ) {
6927 // This is a serious error and should be signaled as soon as possible
6928 debugmsg( "map::saven grid (%s) %s!", grid.to_string(),
6929 submap_to_save == nullptr ? "null" : "uninitialized" );
6930 return;
6931 }
6932
6933 const tripoint abs = abs_sub.xy() + grid;
6934
6935 if( !zlevels && grid.z != abs_sub.z ) {
6936 debugmsg( "Tried to save submap (%d,%d,%d) as (%d,%d,%d), which isn't supported in non-z-level builds",
6937 abs.x, abs.y, abs_sub.z, abs.x, abs.y, grid.z );
6938 }
6939
6940 dbg( DL::Debug ) << "map::saven abs: " << abs << " gridn: " << gridn;
6941
6942 // An edge case: restock_fruits relies on last_touched, so we must call it before save
6943 if( season_of_year( calendar::turn ) != season_of_year( submap_to_save->last_touched ) ) {
6944 const time_duration time_since_last_actualize = calendar::turn - submap_to_save->last_touched;
6945 for( int x = 0; x < SEEX; x++ ) {
6946 for( int y = 0; y < SEEY; y++ ) {
6947 const tripoint pnt = sm_to_ms_copy( grid ) + point( x, y );
6948 restock_fruits( pnt, time_since_last_actualize );
6949 }
6950 }
6951 }
6952
6953 submap_to_save->last_touched = calendar::turn;
6954 MAPBUFFER.add_submap( abs, submap_to_save );
6955}
bool add_submap(const tripoint &p, std::unique_ptr< submap > &sm)
Add a new submap to the buffer.
Definition: mapbuffer.cpp:68
@ Debug
Debug information (default: disabled).

References abs_sub, mapbuffer::add_submap(), dbg, Debug, debugmsg, get_nonant(), submap::get_ter(), getsubmap(), grid, submap::last_touched, MAPBUFFER, point_zero, restock_fruits(), season_of_year(), SEEX, SEEY, sm_to_ms_copy(), t_null, calendar::turn, tripoint::xy(), tripoint::z, and zlevels.

Referenced by generate(), and save().

◆ scent_blockers()

void map::scent_blockers ( std::array< std::array< char, MAPSIZE_X >, MAPSIZE_Y > &  scent_transfer,
const point min,
const point max 
)

Build the map of scent-resistant tiles.

Should be way faster than if done in game.cpp using public map functions.

Definition at line 8533 of file map.cpp.

8535{
8536 auto reduce = TFLAG_REDUCE_SCENT;
8537 auto block = TFLAG_NO_SCENT;
8538 auto fill_values = [&]( const tripoint & gp, const submap * sm, const point & lp ) {
8539 // We need to generate the x/y coordinates, because we can't get them "for free"
8540 const point p = lp + sm_to_ms_copy( gp.xy() );
8541 if( sm->get_ter( lp ).obj().has_flag( block ) ) {
8542 scent_transfer[p.x][p.y] = 0;
8543 } else if( sm->get_ter( lp ).obj().has_flag( reduce ) ||
8544 sm->get_furn( lp ).obj().has_flag( reduce ) ) {
8545 scent_transfer[p.x][p.y] = 1;
8546 } else {
8547 scent_transfer[p.x][p.y] = 5;
8548 }
8549
8550 return ITER_CONTINUE;
8551 };
8552
8553 function_over( tripoint( min, abs_sub.z ), tripoint( max, abs_sub.z ), fill_values );
8554
8555 const inclusive_rectangle<point> local_bounds( min, max );
8556
8557 // Now vehicles
8558
8559 auto vehs = get_vehicles();
8560 for( auto &wrapped_veh : vehs ) {
8561 vehicle &veh = *( wrapped_veh.v );
8562 for( const vpart_reference &vp : veh.get_any_parts( VPFLAG_OBSTACLE ) ) {
8563 const tripoint part_pos = vp.pos();
8564 if( local_bounds.contains( part_pos.xy() ) && scent_transfer[part_pos.x][part_pos.y] == 5 ) {
8565 scent_transfer[part_pos.x][part_pos.y] = 1;
8566 }
8567 }
8568
8569 // Doors, but only the closed ones
8570 for( const vpart_reference &vp : veh.get_any_parts( VPFLAG_OPENABLE ) ) {
8571 if( vp.part().open ) {
8572 continue;
8573 }
8574
8575 const tripoint part_pos = vp.pos();
8576 if( local_bounds.contains( part_pos.xy() ) && scent_transfer[part_pos.x][part_pos.y] == 5 ) {
8577 scent_transfer[part_pos.x][part_pos.y] = 1;
8578 }
8579 }
8580 }
8581}
void function_over(const tripoint &start, const tripoint &end, Functor fun) const
Runs a functor over given submaps over submaps in the area, getting next submap only when the current...
Definition: map.cpp:8479
@ TFLAG_REDUCE_SCENT
Definition: mapdata.h:278
@ TFLAG_NO_SCENT
Definition: mapdata.h:284
@ VPFLAG_OBSTACLE
Definition: veh_type.h:42

References abs_sub, inclusive_rectangle< Point, >::contains(), function_over(), vehicle::get_any_parts(), get_vehicles(), ITER_CONTINUE, coords::sm, sm_to_ms_copy(), TFLAG_NO_SCENT, TFLAG_REDUCE_SCENT, VPFLAG_OBSTACLE, VPFLAG_OPENABLE, point::x, tripoint::x, tripoint::xy(), point::y, tripoint::y, and tripoint::z.

Referenced by scent_map::update().

◆ sees() [1/2]

bool map::sees ( const tripoint F,
const tripoint T,
int  range 
) const

Returns whether F sees T with a view range of range.

Definition at line 6122 of file map.cpp.

6123{
6124 int dummy = 0;
6125 return sees( F, T, range, dummy );
6126}

References sees().

Referenced by apply_ammo_effects(), find_clear_path(), mattack::flame(), explosion_handler::explosion_funcs::flashbang(), get_heat_radiation(), projectile_attack(), Creature::sees(), sees(), Character::sees_with_infrared(), shake_vehicle(), shoot(), spawn_monsters_submap_group(), and vehicle_selector::vehicle_selector().

◆ sees() [2/2]

bool map::sees ( const tripoint F,
const tripoint T,
int  range,
int &  bresenham_slope 
) const
private

Don't expose the slope adjust outside map functions.

This one is internal-only, we don't want to expose the slope tweaking ickiness outside the map class.

Parameters
FThing doing the seeing
TThing being seen
rangeVision range of F
bresenham_slopeIndicates the start offset of Bresenham line used to connect the two points, and may subsequently be used to form a path between them. Set to zero if the function returns false.

Definition at line 6131 of file map.cpp.

6133{
6134 if( ( range >= 0 && range < rl_dist( F, T ) ) ||
6135 !inbounds( T ) ) {
6136 bresenham_slope = 0;
6137 return false; // Out of range!
6138 }
6139 // Cannonicalize the order of the tripoints so the cache is reflexive.
6140 const tripoint &min = F < T ? F : T;
6141 const tripoint &max = !( F < T ) ? F : T;
6142 // A little gross, just pack the values into a point.
6143 const point key(
6144 min.x << 16 | min.y << 8 | ( min.z + OVERMAP_DEPTH ),
6145 max.x << 16 | max.y << 8 | ( max.z + OVERMAP_DEPTH )
6146 );
6147 char cached = skew_vision_cache.get( key, -1 );
6148 if( cached >= 0 ) {
6149 return cached > 0;
6150 }
6151
6152 bool visible = true;
6153
6154 // Ugly `if` for now
6155 if( !fov_3d || F.z == T.z ) {
6156
6157 point last_point = F.xy();
6158 bresenham( F.xy(), T.xy(), bresenham_slope,
6159 [this, &visible, &T, &last_point]( const point & new_point ) {
6160 // Exit before checking the last square, it's still visible even if opaque.
6161 if( new_point.x == T.x && new_point.y == T.y ) {
6162 return false;
6163 }
6164 if( !this->is_transparent( tripoint( new_point, T.z ) ) ||
6165 obscured_by_vehicle_rotation( tripoint( last_point, T.z ), tripoint( new_point, T.z ) ) ) {
6166 visible = false;
6167 return false;
6168 }
6169 last_point = new_point;
6170 return true;
6171 } );
6172 skew_vision_cache.insert( 100000, key, visible ? 1 : 0 );
6173 return visible;
6174 }
6175
6176 tripoint last_point = F;
6177 bresenham( F, T, bresenham_slope, 0,
6178 [this, &visible, &T, &last_point]( const tripoint & new_point ) {
6179 // Exit before checking the last square if it's not a vertical transition,
6180 // it's still visible even if opaque.
6181 if( new_point == T && last_point.z == T.z ) {
6182 return false;
6183 }
6184
6185 // TODO: Allow transparent floors (and cache them!)
6186 if( new_point.z == last_point.z ) {
6187 if( !this->is_transparent( new_point ) || obscured_by_vehicle_rotation( last_point, new_point ) ) {
6188 visible = false;
6189 return false;
6190 }
6191 } else {
6192 const int max_z = std::max( new_point.z, last_point.z );
6193 if( ( has_floor_or_support( {new_point.xy(), max_z} ) ||
6194 !is_transparent( {new_point.xy(), last_point.z} ) ) &&
6195 ( has_floor_or_support( {last_point.xy(), max_z} ) ||
6196 !is_transparent( {last_point.xy(), new_point.z} ) ) ) {
6197 visible = false;
6198 return false;
6199 }
6200 }
6201
6202 last_point = new_point;
6203 return true;
6204 } );
6205 skew_vision_cache.insert( 100000, key, visible ? 1 : 0 );
6206 return visible;
6207}

References bresenham(), fov_3d, inbounds(), obscured_by_vehicle_rotation(), OVERMAP_DEPTH, rl_dist(), skew_vision_cache, tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

◆ sees_some_items() [1/2]

bool map::sees_some_items ( const tripoint p,
const Creature who 
) const

Check if creature can see some items at p.

Includes:

  • check for items at this location (has_items(p))
  • check for SEALED flag (sealed furniture/terrain makes items not visible under any circumstances).
  • check for CONTAINER flag (makes items only visible when the creature is at p or at an adjacent square).

Definition at line 4717 of file map.cpp.

4718{
4719 // Can only see items if there are any items.
4720 return has_items( p ) && could_see_items( p, who.pos() );
4721}

References could_see_items(), has_items(), and Creature::pos().

Referenced by game::butcher(), editmap::draw_main_ui_overlay(), draw_maptile(), npc::find_corpse_to_pulp(), npc::find_item(), game::find_nearby_items(), vehicle::interact_with(), game::print_items_info(), and npc::see_item_say_smth().

◆ sees_some_items() [2/2]

bool map::sees_some_items ( const tripoint p,
const tripoint from 
) const

Definition at line 4723 of file map.cpp.

4724{
4725 return has_items( p ) && could_see_items( p, from );
4726}

References could_see_items(), and has_items().

◆ set() [1/2]

void map::set ( const point p,
const ter_id new_terrain,
const furn_id new_furniture 
)
inline

Definition at line 835 of file map.h.

835 {
836 furn_set( p, new_furniture );
837 ter_set( p, new_terrain );
838 }

References furn_set(), and ter_set().

◆ set() [2/2]

void map::set ( const tripoint p,
const ter_id new_terrain,
const furn_id new_furniture 
)

Definition at line 1316 of file map.cpp.

1317{
1318 furn_set( p, new_furniture );
1319 ter_set( p, new_terrain );
1320}

References furn_set(), and ter_set().

Referenced by farm_action(), talk_function::field_plant(), mapgen_function_json_base::formatted_set_incredibly_simple(), and activity_handlers::plant_seed_finish().

◆ set_abs_sub()

void map::set_abs_sub ( const tripoint p)
protected

Sets abs_sub, see there.

Uses the same coordinate system as abs_sub.

Definition at line 8259 of file map.cpp.

8260{
8261 abs_sub = p;
8262}

References abs_sub.

Referenced by fake_map::fake_map(), generate(), load(), shift(), and vertical_shift().

◆ set_field_age()

time_duration map::set_field_age ( const tripoint p,
const field_type_id type,
const time_duration age,
bool  isoffset = false 
)

Set age of field entry at point.

Parameters
pLocation of field
typeID of field
ageNew age of specified field
isoffsetIf true, the given age value is added to the existing value, if false, the existing age is ignored and overridden.
Returns
resulting age or -1_turns if not present (does not create a new field).

Definition at line 5319 of file map.cpp.

5321{
5322 if( field_entry *const field_ptr = get_field( p, type ) ) {
5323 return field_ptr->set_field_age( ( isoffset ? field_ptr->get_field_age() : 0_turns ) + age );
5324 }
5325 return -1_turns;
5326}

References get_field(), and type.

Referenced by game::grabbed_furn_move(), mod_field_age(), and game::walk_move().

◆ set_field_intensity()

int map::set_field_intensity ( const tripoint p,
const field_type_id type,
int  new_intensity,
bool  isoffset = false 
)

Set intensity of field entry at point, creating if not present, removing if intensity becomes 0.

Parameters
pLocation of field
typeID of field
new_intensityNew intensity of field
isoffsetIf true, the given new_intensity value is added to the existing value, if false, the existing intensity is ignored and overridden.
Returns
resulting intensity, or 0 for not present (either removed or not created at all).

Definition at line 5332 of file map.cpp.

5335{
5336 field_entry *field_ptr = get_field( p, type );
5337 if( field_ptr != nullptr ) {
5338 int adj = ( isoffset ? field_ptr->get_field_intensity() : 0 ) + new_intensity;
5339 if( adj > 0 ) {
5340 field_ptr->set_field_intensity( adj );
5341 return adj;
5342 } else {
5343 remove_field( p, type );
5344 return 0;
5345 }
5346 } else if( 0 + new_intensity > 0 ) {
5347 return add_field( p, type, new_intensity ) ? new_intensity : 0;
5348 }
5349
5350 return 0;
5351}

References add_field(), get_field(), field_entry::get_field_intensity(), remove_field(), field_entry::set_field_intensity(), and type.

Referenced by editmap::edit_fld(), game::grabbed_furn_move(), mod_field_intensity(), and game::walk_move().

◆ set_floor_cache_dirty()

void map::set_floor_cache_dirty ( const int  zlev)
inline

◆ set_graffiti()

void map::set_graffiti ( const tripoint p,
const std::string &  contents 
)

Definition at line 7790 of file map.cpp.

7791{
7792 if( !inbounds( p ) ) {
7793 return;
7794 }
7795 point l;
7796 submap *const current_submap = get_submap_at( p, l );
7797 current_submap->set_graffiti( l, contents );
7798}
void set_graffiti(const point &p, const std::string &new_graffiti)
Definition: submap.cpp:97

References get_submap_at(), inbounds(), and submap::set_graffiti().

Referenced by jmapgen_graffiti::apply().

◆ set_memory_seen_cache_dirty()

void map::set_memory_seen_cache_dirty ( const tripoint p)
inline

Definition at line 468 of file map.h.

468 {
469 const int offset = p.x + p.y * MAPSIZE_Y;
470 if( offset >= 0 && offset < MAPSIZE_X * MAPSIZE_Y ) {
471 get_cache( p.z ).map_memory_seen_cache.reset( offset );
472 }
473 }

References get_cache(), level_cache::map_memory_seen_cache, MAPSIZE_X, MAPSIZE_Y, tripoint::x, tripoint::y, and tripoint::z.

Referenced by furn_set(), vehicle::stop(), and ter_set().

◆ set_outside_cache_dirty()

void map::set_outside_cache_dirty ( const int  zlev)
inline

Definition at line 447 of file map.h.

447 {
448 if( inbounds_z( zlev ) ) {
449 get_cache( zlev ).outside_cache_dirty = true;
450 }
451 }

References get_cache(), inbounds_z(), and level_cache::outside_cache_dirty.

Referenced by draw_fill_background(), furn_set(), loadn(), editmap::mapgen_preview(), on_vehicle_moved(), ter_set(), and game::vertical_shift().

◆ set_pathfinding_cache_dirty()

void map::set_pathfinding_cache_dirty ( int  zlev)

◆ set_radiation() [1/2]

void map::set_radiation ( const point p,
const int  value 
)
inline

Definition at line 1211 of file map.h.

1211 {
1212 set_radiation( tripoint( p, abs_sub.z ), value );
1213 }

References abs_sub, set_radiation(), and tripoint::z.

◆ set_radiation() [2/2]

void map::set_radiation ( const tripoint p,
int  value 
)

Definition at line 4027 of file map.cpp.

4028{
4029 if( !inbounds( p ) ) {
4030 return;
4031 }
4032
4033 point l;
4034 submap *const current_submap = get_submap_at( p, l );
4035
4036 current_submap->set_radiation( l, value );
4037}

References get_submap_at(), inbounds(), and submap::set_radiation().

Referenced by jmapgen_setmap::apply(), create_anomaly(), draw_lab(), mapgen_crater(), mapgen_null(), mapgen_test(), and set_radiation().

◆ set_seen_cache_dirty() [1/2]

void map::set_seen_cache_dirty ( const int  zlevel)
inline

Definition at line 440 of file map.h.

440 {
441 if( inbounds_z( zlevel ) ) {
442 level_cache &cache = get_cache( zlevel );
443 cache.seen_cache_dirty = true;
444 }
445 }

References get_cache(), inbounds_z(), and level_cache::seen_cache_dirty.

◆ set_seen_cache_dirty() [2/2]

void map::set_seen_cache_dirty ( const tripoint  change_location)
inline

Definition at line 426 of file map.h.

426 {
427 if( inbounds( change_location ) ) {
428 level_cache &cache = get_cache( change_location.z );
429 if( cache.seen_cache_dirty ) {
430 return;
431 }
432 if( cache.seen_cache[change_location.x][change_location.y] != 0.0 ||
433 cache.camera_cache[change_location.x][change_location.y] != 0.0 ) {
434 cache.seen_cache_dirty = true;
435 }
436 }
437 }

References level_cache::camera_cache, get_cache(), inbounds(), level_cache::seen_cache, level_cache::seen_cache_dirty, tripoint::x, tripoint::y, and tripoint::z.

Referenced by add_field(), draw_fill_background(), furn_set(), loadn(), trapfunc::map_regen(), vehicle::merge_rackable_vehicle(), vehicle::open_or_close(), process_fields_in_submap(), remove_field(), avatar::set_movement_mode(), DefaultRemovePartHandler::set_transparency_cache_dirty(), vehicle::split_vehicles(), ter_set(), and weather_manager::update_weather().

◆ set_signage()

void map::set_signage ( const tripoint p,
const std::string &  message 
) const

Definition at line 3992 of file map.cpp.

3993{
3994 if( !inbounds( p ) ) {
3995 return;
3996 }
3997
3998 point l;
3999 submap *const current_submap = get_submap_at( p, l );
4000
4001 current_submap->set_signage( l, message );
4002}
void set_signage(const point &p, const std::string &s)
Definition: submap.cpp:137
std::string message
Definition: mapgen.cpp:403

References get_submap_at(), inbounds(), mapgen_defer::message, and submap::set_signage().

Referenced by jmapgen_sign::apply(), MapExtras::mx_grave(), MapExtras::mx_minefield(), and iexamine::sign().

◆ set_suspension_cache_dirty()

void map::set_suspension_cache_dirty ( const int  zlev)
inline

Definition at line 459 of file map.h.

459 {
460 if( inbounds_z( zlev ) ) {
461 get_cache( zlev ).suspension_cache_dirty = true;
462 }
463 }

References get_cache(), inbounds_z(), and level_cache::suspension_cache_dirty.

Referenced by loadn(), editmap::mapgen_preview(), and ter_set().

◆ set_temperature() [1/2]

void map::set_temperature ( const point p,
int  new_temperature 
)
inline

Definition at line 1228 of file map.h.

1228 {
1229 set_temperature( tripoint( p, abs_sub.z ), new_temperature );
1230 }

References abs_sub, set_temperature(), and tripoint::z.

◆ set_temperature() [2/2]

void map::set_temperature ( const tripoint p,
int  temperature 
)

Definition at line 4061 of file map.cpp.

4062{
4063 if( !inbounds( p ) ) {
4064 return;
4065 }
4066
4067 get_submap_at( p )->set_temperature( new_temperature );
4068}
void set_temperature(int new_temperature)
Definition: submap.h:198

References get_submap_at(), inbounds(), and submap::set_temperature().

Referenced by draw_lab(), and set_temperature().

◆ set_transparency_cache_dirty() [1/2]

void map::set_transparency_cache_dirty ( const int  zlev)
inline

◆ set_transparency_cache_dirty() [2/2]

void map::set_transparency_cache_dirty ( const tripoint p)
inline

Definition at line 419 of file map.h.

419 {
420 if( inbounds( p ) ) {
421 const tripoint smp = ms_to_sm_copy( p );
422 get_cache( smp.z ).transparency_cache_dirty.set( smp.x * MAPSIZE + smp.y );
423 }
424 }

References get_cache(), inbounds(), MAPSIZE, ms_to_sm_copy(), level_cache::transparency_cache_dirty, tripoint::x, tripoint::y, and tripoint::z.

◆ setsubmap()

void map::setsubmap ( size_t  grididx,
submap smap 
)
protected

Set the submap pointer in grid at the give index.

This is the inverse of getsubmap, any existing pointer is overwritten. The index must be valid. The given submap pointer must not be null.

Definition at line 8278 of file map.cpp.

8279{
8280 if( grididx >= grid.size() ) {
8281 debugmsg( "Tried to access invalid grid index %d", grididx );
8282 return;
8283 } else if( smap == nullptr ) {
8284 debugmsg( "Tried to set NULL submap pointer at index %d", grididx );
8285 return;
8286 }
8287 grid[grididx] = smap;
8288}

References debugmsg, and grid.

Referenced by copy_grid(), fake_map::fake_map(), generate(), and loadn().

◆ shake_vehicle()

units::angle map::shake_vehicle ( vehicle veh,
int  velocity_before,
units::angle  direction 
)
Strength reduces chance of being thrown from your seat when not wearing a seatbelt Strength reduces chance of being thrown from your seat when not wearing a seatbelt Dexterity reduces chance of losing control of vehicle when shaken Driving reduces chance of losing control of vehicle when shaken Strength reduces distance thrown from seat in a vehicle impact

Definition at line 1631 of file vehicle_move.cpp.

1633{
1634 const int d_vel = std::abs( veh.velocity - velocity_before ) / 100;
1635
1636 std::vector<rider_data> riders = veh.get_riders();
1637
1638 units::angle coll_turn = 0_degrees;
1639 for( const rider_data &r : riders ) {
1640 const int ps = r.prt;
1641 Creature *rider = r.psg;
1642 if( rider == nullptr ) {
1643 debugmsg( "throw passenger: empty passenger at part %d", ps );
1644 continue;
1645 }
1646
1647 const tripoint part_pos = veh.global_part_pos3( ps );
1648 if( rider->pos() != part_pos ) {
1649 debugmsg( "throw passenger: passenger at %d,%d,%d, part at %d,%d,%d",
1650 rider->posx(), rider->posy(), rider->posz(),
1651 part_pos.x, part_pos.y, part_pos.z );
1653 continue;
1654 }
1655
1656 player *psg = dynamic_cast<player *>( rider );
1657 monster *pet = dynamic_cast<monster *>( rider );
1658
1659 bool throw_from_seat = false;
1660 int move_resist = 1;
1661 if( psg ) {
1662 ///\EFFECT_STR reduces chance of being thrown from your seat when not wearing a seatbelt
1663 move_resist = psg->str_cur * 150 + 500;
1664 } else {
1665 int pet_resist = 0;
1666 if( pet != nullptr ) {
1667 pet_resist = static_cast<int>( to_kilogram( pet->get_weight() ) * 200 );
1668 }
1669 move_resist = std::max( 100, pet_resist );
1670 }
1671 if( veh.part_with_feature( ps, VPFLAG_SEATBELT, true ) == -1 ) {
1672 ///\EFFECT_STR reduces chance of being thrown from your seat when not wearing a seatbelt
1673 throw_from_seat = d_vel * rng( 80, 120 ) > move_resist;
1674 }
1675
1676 // Damage passengers if d_vel is too high
1677 if( !throw_from_seat && ( 10 * d_vel ) > 6 * rng( 50, 100 ) ) {
1678 const int dmg = d_vel * rng( 70, 100 ) / 400;
1679 if( psg ) {
1680 psg->hurtall( dmg, nullptr );
1682 _( "You take %d damage by the power of the impact!" ),
1683 _( "<npcname> takes %d damage by the power of the "
1684 "impact!" ), dmg );
1685 } else {
1686 pet->apply_damage( nullptr, bodypart_id( "torso" ), dmg );
1687 }
1688 }
1689
1690 if( psg && veh.player_in_control( *psg ) ) {
1691 const int lose_ctrl_roll = rng( 0, d_vel );
1692 ///\EFFECT_DEX reduces chance of losing control of vehicle when shaken
1693
1694 ///\EFFECT_DRIVING reduces chance of losing control of vehicle when shaken
1695 if( lose_ctrl_roll > psg->dex_cur * 2 + psg->get_skill_level( skill_driving ) * 3 ) {
1697 _( "You lose control of the %s." ),
1698 _( "<npcname> loses control of the %s." ), veh.name );
1699 int turn_amount = rng( 1, 3 ) * std::sqrt( std::abs( veh.velocity ) ) / 30;
1700 if( turn_amount < 1 ) {
1701 turn_amount = 1;
1702 }
1703 units::angle turn_angle = std::min( turn_amount * 15_degrees, 120_degrees );
1704 coll_turn = one_in( 2 ) ? turn_angle : -turn_angle;
1705 }
1706 }
1707
1708 if( throw_from_seat ) {
1709 if( psg ) {
1711 _( "You are hurled from the %s's seat by "
1712 "the power of the impact!" ),
1713 _( "<npcname> is hurled from the %s's seat by "
1714 "the power of the impact!" ), veh.name );
1715 unboard_vehicle( part_pos );
1716 } else if( get_player_character().sees( part_pos ) ) {
1717 add_msg( m_bad, _( "The %s is hurled from %s's by the power of the impact!" ),
1718 pet->disp_name(), veh.name );
1719 }
1720 ///\EFFECT_STR reduces distance thrown from seat in a vehicle impact
1721 g->fling_creature( rider, direction + rng_float( -30_degrees, 30_degrees ),
1722 std::max( 10, d_vel - move_resist / 100 ) );
1723 }
1724 }
1725
1726 return coll_turn;
1727}
int dex_cur
Definition: character.h:248
int get_skill_level(const skill_id &ident) const
Definition: character.cpp:3356
units::mass get_weight() const override
Definition: monster.cpp:2697
std::string disp_name(bool possessive=false, bool capitalize_first=false) const override
Definition: monster.cpp:537
int part_with_feature(int p, const std::string &f, bool unbroken) const
Definition: vehicle.cpp:2520
@ VPFLAG_SEATBELT
Definition: veh_type.h:45
static const skill_id skill_driving("driving")

References _, add_msg(), player::add_msg_player_or_npc(), monster::apply_damage(), debugmsg, Character::dex_cur, monster::disp_name(), g, get_player_character(), vehicle::get_riders(), Character::get_skill_level(), monster::get_weight(), vehicle::global_part_pos3(), Character::hurtall(), m_bad, m_warning, vehicle::name, one_in(), vehicle::part(), vehicle::part_with_feature(), vehicle_part::passenger_flag, vehicle::player_in_control(), Creature::pos(), Creature::posx(), Creature::posy(), Creature::posz(), vehicle_part::remove_flag(), rng(), rng_float(), sees(), skill_driving, Character::str_cur, units::to_kilogram(), unboard_vehicle(), vehicle::velocity, VPFLAG_SEATBELT, tripoint::x, tripoint::y, and tripoint::z.

Referenced by move_vehicle().

◆ shift()

void map::shift ( const point s)

Shift the map along the vector s.

This is like loading the map with coordinates derived from the current position of the map (abs_sub) plus the shift vector. Note: the map must have been loaded before this can be called.

Definition at line 6755 of file map.cpp.

6756{
6757 // Special case of 0-shift; refresh the map
6758 if( sp == point_zero ) {
6759 return; // Skip this?
6760 }
6761
6762 if( std::abs( sp.x ) > 1 || std::abs( sp.y ) > 1 ) {
6763 debugmsg( "map::shift called with a shift of more than one submap" );
6764 }
6765
6766 const tripoint abs = get_abs_sub();
6767
6768 set_abs_sub( abs + sp );
6769
6770 // if player is in vehicle, (s)he must be shifted with vehicle too
6771 if( g->u.in_vehicle ) {
6772 g->u.setx( g->u.posx() - sp.x * SEEX );
6773 g->u.sety( g->u.posy() - sp.y * SEEY );
6774 }
6775
6776 g->shift_destination_preview( point( -sp.x * SEEX, -sp.y * SEEY ) );
6777
6778 shift_traps( tripoint( sp, 0 ) );
6779
6780 vehicle *remoteveh = g->remoteveh();
6781
6782 const int zmin = zlevels ? -OVERMAP_DEPTH : abs.z;
6783 const int zmax = zlevels ? OVERMAP_HEIGHT : abs.z;
6784 for( int gridz = zmin; gridz <= zmax; gridz++ ) {
6785 for( vehicle *veh : get_cache( gridz ).vehicle_list ) {
6786 veh->zones_dirty = true;
6787 }
6788 }
6789
6790 constexpr half_open_rectangle<point> boundaries_2d( point_zero, point( MAPSIZE_Y, MAPSIZE_X ) );
6791 const point shift_offset_pt( -sp.x * SEEX, -sp.y * SEEY );
6792
6793 //TODO: This only needs to cover the relevant 2 new edges of the map depending on sp
6794 std::array<std::array<bool, MAPSIZE>, MAPSIZE> generated = {{{false}}};
6795
6796 // Clear vehicle list and rebuild after shift
6798 // Shift the map sx submaps to the right and sy submaps down.
6799 // sx and sy should never be bigger than +/-1.
6800 // absx and absy are our position in the world, for saving/loading purposes.
6801 for( int gridz = zmin; gridz <= zmax; gridz++ ) {
6802 clear_vehicle_list( gridz );
6803 shift_bitset_cache<MAPSIZE_X, SEEX>( get_cache( gridz ).map_memory_seen_cache, sp );
6804 shift_bitset_cache<MAPSIZE, 1>( get_cache( gridz ).field_cache, sp );
6805 if( sp.x >= 0 ) {
6806 for( int gridx = 0; gridx < my_MAPSIZE; gridx++ ) {
6807 if( sp.y >= 0 ) {
6808 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
6809 if( ( sp.x > 0 && gridx == 0 ) || ( sp.y > 0 && gridy == 0 ) ) {
6810 submaps_with_active_items.erase( { abs.x + gridx, abs.y + gridy, gridz } );
6811 }
6812 if( gridx + sp.x < my_MAPSIZE && gridy + sp.y < my_MAPSIZE ) {
6813 copy_grid( tripoint( gridx, gridy, gridz ),
6814 tripoint( gridx + sp.x, gridy + sp.y, gridz ) );
6815 update_vehicle_list( get_submap_at_grid( {gridx, gridy, gridz} ), gridz );
6816 } else {
6817 generated[gridx][gridy] |=
6818 loadn( tripoint( gridx, gridy, gridz ), true );
6819 }
6820 }
6821 } else { // sy < 0; work through it backwards
6822 for( int gridy = my_MAPSIZE - 1; gridy >= 0; gridy-- ) {
6823 if( ( sp.x > 0 && gridx == 0 ) || gridy == my_MAPSIZE - 1 ) {
6824 submaps_with_active_items.erase( { abs.x + gridx, abs.y + gridy, gridz } );
6825 }
6826 if( gridx + sp.x < my_MAPSIZE && gridy + sp.y >= 0 ) {
6827 copy_grid( tripoint( gridx, gridy, gridz ),
6828 tripoint( gridx + sp.x, gridy + sp.y, gridz ) );
6829 update_vehicle_list( get_submap_at_grid( { gridx, gridy, gridz } ), gridz );
6830 } else {
6831 generated[gridx][gridy] |=
6832 loadn( tripoint( gridx, gridy, gridz ), true );
6833 }
6834 }
6835 }
6836 }
6837 } else { // sx < 0; work through it backwards
6838 for( int gridx = my_MAPSIZE - 1; gridx >= 0; gridx-- ) {
6839 if( sp.y >= 0 ) {
6840 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
6841 if( gridx == my_MAPSIZE - 1 || ( sp.y > 0 && gridy == 0 ) ) {
6842 submaps_with_active_items.erase( { abs.x + gridx, abs.y + gridy, gridz } );
6843 }
6844 if( gridx + sp.x >= 0 && gridy + sp.y < my_MAPSIZE ) {
6845 copy_grid( tripoint( gridx, gridy, gridz ),
6846 tripoint( gridx + sp.x, gridy + sp.y, gridz ) );
6847 update_vehicle_list( get_submap_at_grid( { gridx, gridy, gridz } ), gridz );
6848 } else {
6849 generated[gridx][gridy] |=
6850 loadn( tripoint( gridx, gridy, gridz ), true );
6851 }
6852 }
6853 } else { // sy < 0; work through it backwards
6854 for( int gridy = my_MAPSIZE - 1; gridy >= 0; gridy-- ) {
6855 if( gridx == my_MAPSIZE - 1 || gridy == my_MAPSIZE - 1 ) {
6856 submaps_with_active_items.erase( { abs.x + gridx, abs.y + gridy, gridz } );
6857 }
6858 if( gridx + sp.x >= 0 && gridy + sp.y >= 0 ) {
6859 copy_grid( tripoint( gridx, gridy, gridz ),
6860 tripoint( gridx + sp.x, gridy + sp.y, gridz ) );
6861 update_vehicle_list( get_submap_at_grid( { gridx, gridy, gridz } ), gridz );
6862 } else {
6863 generated[gridx][gridy] |=
6864 loadn( tripoint( gridx, gridy, gridz ), true );
6865 }
6866 }
6867 }
6868 }
6869 }
6870 }
6871 if( zlevels ) {
6872 //Go through the generated maps and fill in the roofs
6873 for( int gridx = 0; gridx < my_MAPSIZE; gridx++ ) {
6874 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
6875 if( generated[gridx][gridy] ) {
6876 for( int gridz = zmin; gridz <= zmax; gridz++ ) {
6877 add_roofs( {gridx, gridy, gridz} );
6878 }
6879 }
6880 }
6881 }
6882 }
6883
6885
6886 g->setremoteveh( remoteveh );
6887
6888 if( !support_cache_dirty.empty() ) {
6889 shift_tripoint_set( support_cache_dirty, shift_offset_pt, boundaries_2d );
6890 }
6891}
void copy_grid(const tripoint &to, const tripoint &from)
Definition: map.cpp:7495
void shift_traps(const tripoint &shift)
As part of the map shifting, this shifts the trap locations stored in traplocs.
Definition: map.cpp:6623
template void shift_bitset_cache< MAPSIZE_X, SEEX >(std::bitset< MAPSIZE_X *MAPSIZE_X > &cache, const point &s)
static void shift_tripoint_set(std::set< tripoint > &set, const point &offset, const half_open_rectangle< point > &boundaries)
Definition: map.cpp:6682
template void shift_bitset_cache< MAPSIZE, 1 >(std::bitset< MAPSIZE *MAPSIZE > &cache, const point &s)
int remoteveh(player *, item *, bool, const tripoint &)
Definition: iuse.cpp:8253

References add_roofs(), clear_vehicle_cache(), clear_vehicle_list(), copy_grid(), debugmsg, g, get_abs_sub(), get_cache(), get_submap_at_grid(), loadn(), MAPSIZE, MAPSIZE_X, MAPSIZE_Y, my_MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, point_zero, iuse::remoteveh(), reset_vehicle_cache(), SEEX, SEEY, set_abs_sub(), shift_bitset_cache< MAPSIZE, 1 >(), shift_bitset_cache< MAPSIZE_X, SEEX >(), shift_traps(), shift_tripoint_set(), submaps_with_active_items, support_cache_dirty, update_vehicle_list(), point::x, point::y, and zlevels.

Referenced by shift_traps(), and game::update_map().

◆ shift_traps()

void map::shift_traps ( const tripoint shift)
protected

As part of the map shifting, this shifts the trap locations stored in traplocs.

Parameters
shiftThe amount shifting in submap, the same as go into shift.

Definition at line 6623 of file map.cpp.

6624{
6625 // Offset needs to have sign opposite to shift direction
6626 const tripoint offset( -shift.x * SEEX, -shift.y * SEEY, -shift.z );
6627 for( auto iter = field_furn_locs.begin(); iter != field_furn_locs.end(); ) {
6628 tripoint &pos = *iter;
6629 pos += offset;
6630 if( inbounds( pos ) ) {
6631 ++iter;
6632 } else {
6633 iter = field_furn_locs.erase( iter );
6634 }
6635 }
6636 for( auto &traps : traplocs ) {
6637 for( auto iter = traps.begin(); iter != traps.end(); ) {
6638 tripoint &pos = *iter;
6639 pos += offset;
6640 if( inbounds( pos ) ) {
6641 ++iter;
6642 } else {
6643 // Theoretical enhancement: if this is not the last entry of the vector,
6644 // move the last entry into pos and remove the last entry instead of iter.
6645 // This would avoid moving all the remaining entries.
6646 iter = traps.erase( iter );
6647 }
6648 }
6649 }
6650}
void shift(const point &s)
Shift the map along the vector s.
Definition: map.cpp:6755

References field_furn_locs, inbounds(), SEEX, SEEY, shift(), and traplocs.

Referenced by shift().

◆ shift_vehicle_z()

void map::shift_vehicle_z ( vehicle veh,
int  z_shift 
)

Definition at line 6709 of file map.cpp.

6710{
6711
6712 tripoint src = veh.global_pos3();
6713 tripoint dst = src + tripoint_above * z_shift;
6714
6715 submap *src_submap = get_submap_at( src );
6716 submap *dst_submap = get_submap_at( dst );
6717
6718 int our_i = -1;
6719 for( size_t i = 0; i < src_submap->vehicles.size(); i++ ) {
6720 if( src_submap->vehicles[i].get() == &veh ) {
6721 our_i = i;
6722 break;
6723 }
6724 }
6725
6726 if( our_i == -1 ) {
6727 debugmsg( "shift_vehicle [%s] failed could not find vehicle", veh.name );
6728 return;
6729 }
6730
6731 for( auto &prt : veh.get_all_parts() ) {
6732 prt.part().precalc[0].z -= z_shift;
6733 }
6734
6735 veh.set_submap_moved( tripoint( dst.x / SEEX, dst.y / SEEY, dst.z ) );
6736 auto src_submap_veh_it = src_submap->vehicles.begin() + our_i;
6737 dst_submap->vehicles.push_back( std::move( *src_submap_veh_it ) );
6738 src_submap->vehicles.erase( src_submap_veh_it );
6739 dst_submap->is_uniform = false;
6741
6742 update_vehicle_list( dst_submap, dst.z );
6743
6744 level_cache &ch = get_cache( src.z );
6745 for( const vehicle *elem : ch.vehicle_list ) {
6746 if( elem == &veh ) {
6747 ch.vehicle_list.erase( &veh );
6748 ch.zone_vehicles.erase( &veh );
6749 break;
6750 }
6751 }
6752
6753}

References debugmsg, vehicle::get_all_parts(), get_cache(), get_submap_at(), vehicle::global_pos3(), invalidate_max_populated_zlev(), submap::is_uniform, avatar_action::move(), vehicle::name, SEEX, SEEY, vehicle::set_submap_moved(), tripoint_above, update_vehicle_list(), level_cache::vehicle_list, submap::vehicles, tripoint::x, tripoint::y, tripoint::z, and level_cache::zone_vehicles.

Referenced by vehicle::shift_zlevel().

◆ shoot()

void map::shoot ( const tripoint p,
projectile proj,
bool  hit_items 
)

Definition at line 3706 of file map.cpp.

3707{
3708 float initial_damage = 0.0;
3709 for( const damage_unit &dam : proj.impact ) {
3710 initial_damage += dam.amount * dam.damage_multiplier;
3711 initial_damage += dam.res_pen;
3712 }
3713 if( initial_damage < 0 ) {
3714 return;
3715 }
3716
3717 float dam = initial_damage;
3718
3719 if( has_flag( "ALARMED", p ) && !g->timed_events.queued( TIMED_EVENT_WANTED ) ) {
3720 sounds::sound( p, 30, sounds::sound_t::alarm, _( "an alarm sound!" ), true, "environment",
3721 "alarm" );
3722 const tripoint abs = ms_to_sm_copy( getabs( p ) );
3723 g->timed_events.add( TIMED_EVENT_WANTED, calendar::turn + 30_minutes, 0, abs );
3724 }
3725
3726 const bool inc = proj.has_effect( ammo_effect_INCENDIARY ) ||
3727 proj.impact.type_damage( DT_HEAT ) > 0;
3728 if( const optional_vpart_position vp = veh_at( p ) ) {
3729 dam = vp->vehicle().damage( vp->part_index(), dam, inc ? DT_HEAT : DT_STAB, hit_items );
3730 }
3731
3732 ter_id terrain = ter( p );
3733 ter_t ter = terrain.obj();
3734
3735 if( ter.bash.ranged ) {
3736 const ranged_bash_info &ri = *ter.bash.ranged;
3737 if( !hit_items && !check( ri.block_unaimed_chance ) ) {
3738 // Nothing, it's a miss
3739 } else if( ri.reduction_laser && proj.has_effect( ammo_effect_LASER ) ) {
3740 dam -= rng( ri.reduction_laser->min, ri.reduction_laser->max );
3741 } else {
3742 dam -= rng( ri.reduction.min, ri.reduction.max );
3743 if( dam > ri.destroy_threshold ) {
3744 bash_params params{0, false, true, hit_items, 1.0, false};
3745 bash_ter_success( p, params );
3746 }
3747 if( dam <= 0 && is_transparent( p ) && get_avatar().sees( p ) ) {
3748 add_msg( _( "The shot is stopped by the %s!" ), tername( p ) );
3749 }
3750 if( ri.flammable && inc ) {
3751 add_field( p, fd_fire, 1 );
3752 }
3753 }
3754 } else if( impassable( p ) && !is_transparent( p ) ) {
3755 bash( p, dam, false );
3756 // TODO: Preserve some residual damage when it makes sense.
3757 dam = 0;
3758 }
3759
3760 for( const ammo_effect_str_id &ae_id : proj.get_ammo_effects() ) {
3761 const ammo_effect &ae = *ae_id;
3762 if( ae.trail_field_type ) {
3763 if( x_in_y( ae.trail_chance, 100 ) ) {
3765 }
3766 }
3767 }
3768
3769 dam = std::max( 0.0f, dam );
3770
3771 // Check fields?
3772 const field_entry *fieldhit = get_field( p, fd_web );
3773 if( fieldhit != nullptr ) {
3774 if( inc ) {
3775 add_field( p, fd_fire, fieldhit->get_field_intensity() - 1 );
3776 } else if( dam > 5 + fieldhit->get_field_intensity() * 5 &&
3777 one_in( 5 - fieldhit->get_field_intensity() ) ) {
3778 dam -= rng( 1, 2 + fieldhit->get_field_intensity() * 2 );
3779 remove_field( p, fd_web );
3780 }
3781 }
3782
3783 // Rescale the damage
3784 if( dam <= 0 ) {
3785 proj.impact.damage_units.clear();
3786 return;
3787 } else if( dam < initial_damage ) {
3788 proj.impact.mult_damage( dam / static_cast<double>( initial_damage ) );
3789 }
3790
3791 //Projectiles with NO_ITEM_DAMAGE flag won't damage items at all
3792 if( !hit_items || !inbounds( p ) ) {
3793 return;
3794 }
3795
3796 // Make sure the message is sensible for the ammo effects. Lasers aren't projectiles.
3797 std::string damage_message;
3798 if( proj.has_effect( ammo_effect_LASER ) ) {
3799 damage_message = _( "laser beam" );
3800 } else if( proj.has_effect( ammo_effect_LIGHTNING ) ) {
3801 damage_message = _( "bolt of electricity" );
3802 } else if( proj.has_effect( ammo_effect_PLASMA ) ) {
3803 damage_message = _( "bolt of plasma" );
3804 } else {
3805 damage_message = _( "flying projectile" );
3806 }
3807
3808 smash_items( p, dam, damage_message, false );
3809}
avatar & get_avatar()
Definition: avatar.cpp:102
@ DT_STAB
Definition: damage.h:27
static const ammo_effect_str_id ammo_effect_LIGHTNING("LIGHTNING")
static const ammo_effect_str_id ammo_effect_LASER("LASER")
static const ammo_effect_str_id ammo_effect_INCENDIARY("INCENDIARY")
static const ammo_effect_str_id ammo_effect_PLASMA("PLASMA")
int check(unformattable)
Definition: fmtlib_core.h:1610
int trail_chance
Definition: ammo_effect.h:45
int trail_intensity_max
Definition: ammo_effect.h:44
int trail_intensity_min
Definition: ammo_effect.h:43
field_type_id trail_field_type
Definition: ammo_effect.h:40
std::vector< damage_unit > damage_units
Definition: damage.h:52
float type_damage(damage_type dt) const
Definition: damage.cpp:64
void mult_damage(double multiplier, bool pre_armor=false)
Definition: damage.cpp:48
float amount
Definition: damage.h:37
float damage_multiplier
Definition: damage.h:40
float res_pen
Definition: damage.h:38
const std::set< ammo_effect_str_id > & get_ammo_effects()
Definition: projectile.h:42
damage_instance impact
Definition: projectile.h:21
bool has_effect(const ammo_effect_str_id &id) const
Definition: projectile.h:55
bool flammable
Definition: mapdata.h:40
numeric_interval< int > reduction
Definition: mapdata.h:36
cata::optional< numeric_interval< int > > reduction_laser
Definition: mapdata.h:38
int destroy_threshold
Definition: mapdata.h:39
units::probability block_unaimed_chance
Definition: mapdata.h:41

References _, add_field(), add_msg(), sounds::alarm, ammo_effect_INCENDIARY, ammo_effect_LASER, ammo_effect_LIGHTNING, ammo_effect_PLASMA, damage_unit::amount, bash(), bash_ter_success(), ranged_bash_info::block_unaimed_chance, detail::check(), damage_unit::damage_multiplier, damage_instance::damage_units, ranged_bash_info::destroy_threshold, DT_HEAT, DT_STAB, fd_fire, fd_web, ranged_bash_info::flammable, g, projectile::get_ammo_effects(), get_avatar(), get_field(), field_entry::get_field_intensity(), getabs(), projectile::has_effect(), has_flag(), projectile::impact, impassable(), inbounds(), is_transparent(), ms_to_sm_copy(), damage_instance::mult_damage(), one_in(), ranged_bash_info::reduction, ranged_bash_info::reduction_laser, remove_field(), damage_unit::res_pen, rng(), sees(), smash_items(), sounds::sound(), ter(), tername(), terrain, TIMED_EVENT_WANTED, ammo_effect::trail_chance, ammo_effect::trail_field_type, ammo_effect::trail_intensity_max, ammo_effect::trail_intensity_min, calendar::turn, damage_instance::type_damage(), veh_at(), and x_in_y().

Referenced by ranged::execute_shaped_attack(), and projectile_attack().

◆ smash_items()

void map::smash_items ( const tripoint p,
int  power,
const std::string &  cause_message,
bool  do_destroy 
)

Tries to smash the items at the given tripoint.

Definition at line 2980 of file map.cpp.

2982{
2983 if( !has_items( p ) ) {
2984 return;
2985 }
2986
2987 // Keep track of how many items have been damaged, and what the first one is
2988 int items_damaged = 0;
2989 int items_destroyed = 0;
2990 std::string damaged_item_name;
2991
2992 // TODO: Bullets should be pretty much corpse-only
2993 constexpr const int min_destroy_threshold = 50;
2994
2995 std::vector<item> contents;
2996 map_stack items = i_at( p );
2997 for( auto i = items.begin(); i != items.end(); ) {
2998 // If the power is low or it's not an explosion, only pulp rezing corpses
2999 if( ( power < min_destroy_threshold || !do_destroy ) && !i->can_revive() ) {
3000 i++;
3001 continue;
3002 }
3003
3004 // Active explosives arbitrarily get double the destroy threshold
3005 bool is_active_explosive = i->active && i->type->get_use( "explosion" ) != nullptr;
3006 if( is_active_explosive && i->charges == 0 ) {
3007 i++;
3008 continue;
3009 }
3010
3011 const float material_factor = i->chip_resistance( true );
3012 // Intact non-rezing get a boost
3013 const float intact_mult = 2.0f -
3014 ( static_cast<float>( i->damage_level( i->max_damage() ) ) / i->max_damage() );
3015 const float destroy_threshold = min_destroy_threshold
3016 + material_factor * intact_mult
3017 + ( is_active_explosive ? min_destroy_threshold : 0 );
3018 // For pulping, only consider material resistance. Non-rezing can only be destroyed.
3019 const float pulp_threshold = i->can_revive() ? material_factor : destroy_threshold;
3020 // Active explosives that will explode this turn are indestructible (they are exploding "now")
3021 if( power < pulp_threshold ) {
3022 i++;
3023 continue;
3024 }
3025
3026 bool item_was_destroyed = false;
3027 float destroy_chance = ( power - pulp_threshold ) / 4.0;
3028
3029 const bool by_charges = i->count_by_charges();
3030 if( by_charges ) {
3031 destroy_chance *= i->charges_per_volume( 250_ml );
3032 if( x_in_y( destroy_chance, destroy_threshold ) ) {
3033 item_was_destroyed = true;
3034 }
3035 } else {
3036 const field_type_id type_blood = i->is_corpse() ? i->get_mtype()->bloodType() : fd_null;
3037 float roll = rng_float( 0.0, destroy_chance );
3038 if( roll >= destroy_threshold ) {
3039 item_was_destroyed = true;
3040 } else if( roll >= pulp_threshold ) {
3041 // Only pulp
3042 i->set_damage( i->max_damage() );
3043 // TODO: Blood streak cone away from explosion
3044 add_splash( type_blood, p, 1, destroy_chance );
3045 // If it was the first item to be damaged, note it
3046 if( items_damaged == 0 ) {
3047 damaged_item_name = i->tname();
3048 }
3049 items_damaged++;
3050 }
3051 }
3052
3053 // Remove them if they were damaged too much
3054 if( item_was_destroyed ) {
3055 // But save the contents, except for irremovable gunmods
3056 for( item *elem : i->contents.all_items_top() ) {
3057 if( !elem->is_irremovable() ) {
3058 contents.push_back( item( *elem ) );
3059 }
3060 }
3061
3062 if( items_damaged == 0 ) {
3063 damaged_item_name = i->tname();
3064 }
3065 i = i_rem( p, i );
3066 items_damaged++;
3067 items_destroyed++;
3068 } else {
3069 i++;
3070 }
3071 }
3072
3073 // Let the player know that the item was damaged if they can see it.
3074 if( items_destroyed > 1 && g->u.sees( p ) ) {
3075 add_msg( m_bad, _( "The %s destroys several items!" ), cause_message );
3076 } else if( items_destroyed == 1 && items_damaged == 1 && g->u.sees( p ) ) {
3077 //~ %1$s: the cause of destruction, %2$s: destroyed item name
3078 add_msg( m_bad, _( "The %1$s destroys the %2$s!" ), cause_message, damaged_item_name );
3079 } else if( items_damaged > 1 && g->u.sees( p ) ) {
3080 add_msg( m_bad, _( "The %s damages several items." ), cause_message );
3081 } else if( items_damaged == 1 && g->u.sees( p ) ) {
3082 //~ %1$s: the cause of damage, %2$s: damaged item name
3083 add_msg( m_bad, _( "The %1$s damages the %2$s." ), cause_message, damaged_item_name );
3084 }
3085
3086 for( const item &it : contents ) {
3087 add_item_or_charges( p, it );
3088 }
3089}
void add_splash(const field_type_id &type, const tripoint &center, int radius, int intensity)
Definition: map.cpp:5520

References _, add_item_or_charges(), add_msg(), add_splash(), item_contents::all_items_top(), item_stack::begin(), item::contents, item_stack::end(), fd_null, g, has_items(), i_at(), i_rem(), m_bad, rng_float(), and x_in_y().

Referenced by explosion_handler::do_blast(), explosion_handler::do_blast_new(), move_vehicle(), and shoot().

◆ spawn_an_item() [1/2]

void map::spawn_an_item ( const point p,
item  new_item,
int  charges,
int  damlevel 
)
inline

Definition at line 1307 of file map.h.

1307 {
1308 spawn_an_item( tripoint( p, abs_sub.z ), new_item, charges, damlevel );
1309 }
item & spawn_an_item(const tripoint &p, item new_item, int charges, int damlevel)
Definition: map.cpp:4126

References abs_sub, spawn_an_item(), and tripoint::z.

◆ spawn_an_item() [2/2]

item & map::spawn_an_item ( const tripoint p,
item  new_item,
int  charges,
int  damlevel 
)

Definition at line 4126 of file map.cpp.

4128{
4129 if( charges && new_item.charges > 0 ) {
4130 //let's fail silently if we specify charges for an item that doesn't support it
4131 new_item.charges = charges;
4132 }
4133 new_item = new_item.in_its_container();
4134 if( ( new_item.made_of( LIQUID ) && has_flag( "SWIMMABLE", p ) ) ||
4135 has_flag( "DESTROY_ITEM", p ) ) {
4136 return null_item_reference();
4137 }
4138
4139 new_item.set_damage( damlevel );
4140
4141 return add_item_or_charges( p, new_item );
4142}
item & set_damage(int qty)
Filter setting damage constrained by min_damage and max_damage.
Definition: item.cpp:714
item in_its_container() const
Returns this item into its default container.
Definition: item.cpp:841

References add_item_or_charges(), item::charges, has_flag(), item::in_its_container(), LIQUID, item::made_of(), null_item_reference(), and item::set_damage().

Referenced by salvage_actor::cut_up(), spawn_an_item(), and spawn_item().

◆ spawn_artifact()

void map::spawn_artifact ( const tripoint p)

Definition at line 4165 of file map.cpp.

4166{
4168}
itype_id new_artifact()
Definition: artifact.cpp:677

References add_item_or_charges(), new_artifact(), and calendar::start_of_cataclysm.

Referenced by draw_mine(), and draw_temple().

◆ spawn_item() [1/4]

void map::spawn_item ( const point p,
const itype_id type_id,
unsigned  quantity = 1,
int  charges = 0,
const time_point birthday = calendar::start_of_cataclysm,
int  damlevel = 0 
)
inline

Definition at line 1260 of file map.h.

1262 {
1263 spawn_item( tripoint( p, abs_sub.z ), type_id, quantity, charges, birthday, damlevel );
1264 }

References abs_sub, spawn_item(), and tripoint::z.

◆ spawn_item() [2/4]

void map::spawn_item ( const point p,
const std::string &  type_id,
unsigned  quantity = 1,
int  charges = 0,
const time_point birthday = calendar::start_of_cataclysm,
int  damlevel = 0 
)
inline

Definition at line 1273 of file map.h.

1275 {
1276 spawn_item( tripoint( p, abs_sub.z ), type_id, quantity, charges, birthday, damlevel );
1277 }

References abs_sub, spawn_item(), and tripoint::z.

◆ spawn_item() [3/4]

void map::spawn_item ( const tripoint p,
const itype_id type_id,
unsigned  quantity = 1,
int  charges = 0,
const time_point birthday = calendar::start_of_cataclysm,
int  damlevel = 0 
)

Definition at line 4175 of file map.cpp.

4178{
4179 if( type_id.is_null() ) {
4180 return;
4181 }
4182
4183 if( item_is_blacklisted( type_id ) ) {
4184 return;
4185 }
4186 // recurse to spawn (quantity - 1) items
4187 for( size_t i = 1; i < quantity; i++ ) {
4188 spawn_item( p, type_id, 1, charges, birthday, damlevel );
4189 }
4190 // spawn the item
4191 item new_item( type_id, birthday );
4192 if( one_in( 3 ) && new_item.has_flag( "VARSIZE" ) ) {
4193 new_item.set_flag( "FIT" );
4194 }
4195
4196 spawn_an_item( p, new_item, charges, damlevel );
4197}
bool is_null() const
Returns whether this represents the id of the null-object (in which case it's the null-id).
Definition: string_id.h:317
bool item_is_blacklisted(const itype_id &id)

References item::has_flag(), string_id< T >::is_null(), item_is_blacklisted(), one_in(), item::set_flag(), spawn_an_item(), and spawn_item().

Referenced by computer_session::action_extract_rad_source(), jmapgen_spawn_item::apply(), MapExtras::burned_ground_parser(), talk_function::buy_100_logs(), talk_function::buy_10_logs(), activity_handlers::chop_planks_finish(), create_anomaly(), create_burnproducts(), iexamine::curtains(), MapExtras::dead_vegetation_parser(), game::disable_robot(), construct::done_window_curtains(), draw_lab(), draw_office_tower(), explosion_handler::emp_blast(), iexamine::fertilize_plant(), dig_activity_actor::finish(), iexamine::flower_marloss(), activity_handlers::hacksaw_finish(), vehicle::handle_trap(), make_rubble(), mapgen_cavern(), mapgen_tutorial(), MapExtras::mx_casings(), MapExtras::mx_drugdeal(), MapExtras::mx_grave(), MapExtras::mx_mayhem(), MapExtras::mx_minefield(), MapExtras::mx_roadworks(), om_cutdown_trees(), trap::on_disarmed(), activity_handlers::oxytorch_finish(), pick_plant(), mission_start::place_deposit_box(), MapExtras::place_fumarole(), mission_start::place_priest_diary(), place_vending(), activity_handlers::pry_nails_finish(), mission_start::ranch_nurse_1(), mission_start::ranch_nurse_2(), mission_start::ranch_scavenger_1(), mission_start::ranch_scavenger_2(), mission_start::ranch_scavenger_3(), iexamine::recycle_compactor(), iexamine::shrub_marloss(), sinkhole_safety_roll(), spawn_item(), iexamine::tree_hickory(), iexamine::tree_marloss(), try_remove_bear_trap(), try_remove_heavysnare(), try_remove_lightsnare(), unroll_digging(), and game::vertical_move().

◆ spawn_item() [4/4]

void map::spawn_item ( const tripoint p,
const std::string &  type_id,
unsigned  quantity = 1,
int  charges = 0,
const time_point birthday = calendar::start_of_cataclysm,
int  damlevel = 0 
)
inline

Definition at line 1268 of file map.h.

1270 {
1271 spawn_item( p, itype_id( type_id ), quantity, charges, birthday, damlevel );
1272 }

References itype_id, and spawn_item().

◆ spawn_items() [1/2]

void map::spawn_items ( const point p,
const std::vector< item > &  new_items 
)
inline

Definition at line 1383 of file map.h.

1383 {
1384 spawn_items( tripoint( p, abs_sub.z ), new_items );
1385 }

References abs_sub, spawn_items(), and tripoint::z.

◆ spawn_items() [2/2]

std::vector< item * > map::spawn_items ( const tripoint p,
const std::vector< item > &  new_items 
)

Definition at line 4144 of file map.cpp.

4145{
4146 std::vector<item *> ret;
4147 if( !inbounds( p ) || has_flag( "DESTROY_ITEM", p ) ) {
4148 return ret;
4149 }
4150 const bool swimmable = has_flag( "SWIMMABLE", p );
4151 for( const item &new_item : new_items ) {
4152
4153 if( new_item.made_of( LIQUID ) && swimmable ) {
4154 continue;
4155 }
4156 item &it = add_item_or_charges( p, new_item );
4157 if( !it.is_null() ) {
4158 ret.push_back( &it );
4159 }
4160 }
4161
4162 return ret;
4163}
bool is_null() const
Definition: item.cpp:732

References add_item_or_charges(), has_flag(), inbounds(), item::is_null(), LIQUID, and cata::hash64_detail::ret.

Referenced by jmapgen_loot::apply(), bash_furn_success(), bash_items(), bash_ter_success(), complete_construction(), construct::done_deconstruct(), dig_activity_actor::finish(), dig_channel_activity_actor::finish(), talk_function::loot_building(), MapExtras::mx_casings(), MapExtras::mx_corpses(), process_fields_in_submap(), put_items_from_loc(), veh_utils::repair_part(), smash(), and spawn_items().

◆ spawn_monsters()

void map::spawn_monsters ( bool  ignore_sight)

Spawn monsters from submap spawn points and from the overmap.

Parameters
ignore_sightIf true, monsters may spawn in the view of the player character (useful when the whole map has been loaded instead, e.g. when starting a new game, or after teleportation or after moving vertically). If false, monsters are not spawned in view of player character.

Definition at line 7693 of file map.cpp.

7694{
7695 const int zmin = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
7696 const int zmax = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
7697 tripoint gp;
7698 int &gx = gp.x;
7699 int &gy = gp.y;
7700 int &gz = gp.z;
7701 for( gz = zmin; gz <= zmax; gz++ ) {
7702 for( gx = 0; gx < my_MAPSIZE; gx++ ) {
7703 for( gy = 0; gy < my_MAPSIZE; gy++ ) {
7704 spawn_monsters_submap( gp, ignore_sight );
7705 }
7706 }
7707 }
7708}
void spawn_monsters_submap(const tripoint &gp, bool ignore_sight)
Definition: map.cpp:7638

References abs_sub, my_MAPSIZE, OVERMAP_DEPTH, OVERMAP_HEIGHT, spawn_monsters_submap(), tripoint::x, tripoint::y, tripoint::z, and zlevels.

Referenced by game::do_turn(), editmap::mapgen_preview(), game::place_player_overmap(), game::start_game(), game::update_map(), and game::vertical_shift().

◆ spawn_monsters_submap()

void map::spawn_monsters_submap ( const tripoint gp,
bool  ignore_sight 
)
private

Definition at line 7638 of file map.cpp.

7639{
7640 // Load unloaded monsters
7641 // TODO: fix point types
7643
7644 // Only spawn new monsters after existing monsters are loaded.
7645 // TODO: fix point types
7646 auto groups = overmap_buffer.groups_at( tripoint_abs_sm( gp + abs_sub.xy() ) );
7647 for( auto &mgp : groups ) {
7648 spawn_monsters_submap_group( gp, *mgp, ignore_sight );
7649 }
7650
7651 submap *const current_submap = get_submap_at_grid( gp );
7652 const tripoint gp_ms = sm_to_ms_copy( gp );
7653
7654 for( auto &i : current_submap->spawns ) {
7655 const tripoint center = gp_ms + i.pos;
7657
7658 for( int j = 0; j < i.count; j++ ) {
7659 monster tmp( i.type );
7660 tmp.mission_id = i.mission_id;
7661 if( i.name != "NONE" ) {
7662 tmp.unique_name = i.name;
7663 }
7664 if( i.friendly ) {
7665 tmp.friendly = -1;
7666 }
7667
7668 const auto valid_location = [&]( const tripoint & p ) {
7669 // Checking for creatures via g is only meaningful if this is the main game map.
7670 // If it's some local map instance, the coordinates will most likely not even match.
7671 return ( !g || &get_map() != this || !g->critter_at( p ) ) && tmp.can_move_to( p );
7672 };
7673
7674 const auto place_it = [&]( const tripoint & p ) {
7675 monster *const placed = g->place_critter_at( make_shared_fast<monster>( tmp ), p );
7676 if( placed ) {
7677 placed->on_load();
7678 }
7679 };
7680
7681 // First check out defined spawn location for a valid placement, and if that doesn't work
7682 // then fall back to picking a random point that is a valid location.
7683 if( valid_location( center ) ) {
7684 place_it( center );
7685 } else if( const cata::optional<tripoint> pos = random_point( points, valid_location ) ) {
7686 place_it( *pos );
7687 }
7688 }
7689 }
7690 current_submap->spawns.clear();
7691}
void spawn_monsters_submap_group(const tripoint &gp, mongroup &group, bool ignore_sight)
Definition: map.cpp:7504
void on_load()
Retroactively update monster.
Definition: monster.cpp:3009
std::vector< mongroup * > groups_at(const tripoint_abs_sm &p)
Monster groups at p - absolute submap coordinates.
void spawn_monster(const tripoint_abs_sm &p)
Spawn monsters from the overmap onto the main map (game::m).

References abs_sub, monster::can_move_to(), center, monster::friendly, g, get_map(), get_submap_at_grid(), overmapbuffer::groups_at(), monster::mission_id, monster::on_load(), overmap_buffer, points_in_radius(), random_point(), sm_to_ms_copy(), overmapbuffer::spawn_monster(), spawn_monsters_submap_group(), submap::spawns, monster::unique_name, and tripoint::xy().

Referenced by spawn_monsters().

◆ spawn_monsters_submap_group()

void map::spawn_monsters_submap_group ( const tripoint gp,
mongroup group,
bool  ignore_sight 
)
private

Definition at line 7504 of file map.cpp.

7505{
7506 const int s_range = std::min( HALF_MAPSIZE_X,
7507 g->u.sight_range( g->light_level( g->u.posz() ) ) );
7508 int pop = group.population;
7509 std::vector<tripoint> locations;
7510 if( !ignore_sight ) {
7511 // If the submap is one of the outermost submaps, assume that monsters are
7512 // invisible there.
7513 if( gp.x == 0 || gp.y == 0 || gp.x + 1 == MAPSIZE || gp.y + 1 == MAPSIZE ) {
7514 ignore_sight = true;
7515 }
7516 }
7517
7518 if( gp.z != g->u.posz() ) {
7519 // Note: this is only OK because 3D vision isn't a thing yet
7520 ignore_sight = true;
7521 }
7522
7523 static const auto allow_on_terrain = [&]( const tripoint & p ) {
7524 // TODO: flying creatures should be allowed to spawn without a floor,
7525 // but the new creature is created *after* determining the terrain, so
7526 // we can't check for it here.
7527 return passable( p ) && has_floor( p );
7528 };
7529
7530 // If the submap is uniform, we can skip many checks
7531 const submap *current_submap = get_submap_at_grid( gp );
7532 bool ignore_terrain_checks = false;
7533 bool ignore_inside_checks = gp.z < 0;
7534 if( current_submap->is_uniform ) {
7535 const tripoint upper_left{ SEEX * gp.x, SEEY * gp.y, gp.z };
7536 if( !allow_on_terrain( upper_left ) ||
7537 ( !ignore_inside_checks && has_flag_ter_or_furn( TFLAG_INDOORS, upper_left ) ) ) {
7538 const tripoint glp = getabs( gp );
7539 dbg( DL::Warn ) << "Empty locations for group " << group.type.str()
7540 << " at uniform submap " << gp << " global " << glp;
7541 return;
7542 }
7543
7544 ignore_terrain_checks = true;
7545 ignore_inside_checks = true;
7546 }
7547
7548 for( int x = 0; x < SEEX; ++x ) {
7549 for( int y = 0; y < SEEY; ++y ) {
7550 int fx = x + SEEX * gp.x;
7551 int fy = y + SEEY * gp.y;
7552 tripoint fp{ fx, fy, gp.z };
7553 if( g->critter_at( fp ) != nullptr ) {
7554 continue; // there is already some creature
7555 }
7556
7557 if( !ignore_terrain_checks && !allow_on_terrain( fp ) ) {
7558 continue; // solid area, impassable
7559 }
7560
7561 if( !ignore_sight && sees( g->u.pos(), fp, s_range ) ) {
7562 continue; // monster must spawn outside the viewing range of the player
7563 }
7564
7565 if( !ignore_inside_checks && has_flag_ter_or_furn( TFLAG_INDOORS, fp ) ) {
7566 continue; // monster must spawn outside.
7567 }
7568
7569 locations.push_back( fp );
7570 }
7571 }
7572
7573 if( locations.empty() ) {
7574 // TODO: what now? there is no possible place to spawn monsters, most
7575 // likely because the player can see all the places.
7576 const tripoint glp = getabs( gp );
7577 dbg( DL::Warn ) << "Empty locations for group " << group.type.str()
7578 << " at " << gp << " global " << glp;
7579 // Just kill the group. It's not like we're removing existing monsters
7580 // Unless it's a horde - then don't kill it and let it spawn behind a tree or smoke cloud
7581 if( !group.horde ) {
7582 group.clear();
7583 }
7584
7585 return;
7586 }
7587
7588 if( pop ) {
7589 // Populate the group from its population variable.
7590 for( int m = 0; m < pop; m++ ) {
7592 if( !spawn_details.name ) {
7593 continue;
7594 }
7595 monster tmp( spawn_details.name );
7596
7597 // If a monster came from a horde population, configure them to always be willing to rejoin a horde.
7598 if( group.horde ) {
7599 tmp.set_horde_attraction( MHA_ALWAYS );
7600 }
7601 for( int i = 0; i < spawn_details.pack_size; i++ ) {
7602 group.monsters.push_back( tmp );
7603 }
7604 }
7605 }
7606
7607 // Find horde's target submap
7608 // TODO: fix point types
7609 tripoint horde_target( tripoint( -abs_sub.xy(), abs_sub.z ) + group.target.xy().raw() );
7610 sm_to_ms( horde_target );
7611 for( auto &tmp : group.monsters ) {
7612 for( int tries = 0; tries < 10 && !locations.empty(); tries++ ) {
7614 if( !tmp.can_move_to( p ) ) {
7615 continue; // target can not contain the monster
7616 }
7617 if( group.horde ) {
7618 // Give monster a random point near horde's expected destination
7619 const tripoint rand_dest = horde_target +
7620 point( rng( 0, SEEX ), rng( 0, SEEY ) );
7621 const int turns = rl_dist( p, rand_dest ) + group.interest;
7622 tmp.wander_to( rand_dest, turns );
7623 add_msg( m_debug, "%s targeting %d,%d,%d", tmp.disp_name(),
7624 tmp.wander_pos.x, tmp.wander_pos.y, tmp.wander_pos.z );
7625 }
7626
7627 monster *const placed = g->place_critter_at( make_shared_fast<monster>( tmp ), p );
7628 if( placed ) {
7629 placed->on_load();
7630 }
7631 break;
7632 }
7633 }
7634 // indicates the group is empty, and can be removed later
7635 group.clear();
7636}
void sm_to_ms(int &x, int &y)
static constexpr int HALF_MAPSIZE_X
@ MHA_ALWAYS
Definition: monster.h:76
generic_factory< overmap_location > locations("overmap location")

References abs_sub, add_msg(), dbg, g, get_submap_at_grid(), getabs(), MonsterGroupManager::GetResultFromGroup(), HALF_MAPSIZE_X, has_flag_ter_or_furn(), has_floor(), submap::is_uniform, anonymous_namespace{overmap_location.cpp}::locations, m_debug, MAPSIZE, MHA_ALWAYS, MonsterGroupResult::name, monster::on_load(), MonsterGroupResult::pack_size, passable(), random_entry_removed(), rl_dist(), rng(), sees(), SEEX, SEEY, monster::set_horde_attraction(), sm_to_ms(), TFLAG_INDOORS, Warn, tripoint::x, tripoint::xy(), tripoint::y, and tripoint::z.

Referenced by spawn_monsters_submap().

◆ spawn_natural_artifact()

void map::spawn_natural_artifact ( const tripoint p,
artifact_natural_property  prop 
)

Definition at line 4170 of file map.cpp.

4171{
4173}
itype_id new_natural_artifact(artifact_natural_property prop)
Definition: artifact.cpp:931

References add_item_or_charges(), new_natural_artifact(), and calendar::start_of_cataclysm.

Referenced by debug_menu::debug(), and MapExtras::mx_portal_in().

◆ spread_gas()

void map::spread_gas ( field_entry cur,
const tripoint p,
int  percent_spread,
const time_duration outdoor_age_speedup,
scent_block sblk 
)
private

Definition at line 251 of file map_field.cpp.

253{
254 map &here = get_map();
255 // TODO: fix point types
256 const oter_id &cur_om_ter =
258 const bool sheltered = g->is_sheltered( p );
260 const int winddirection = weather.winddirection;
261 const int windpower = get_local_windpower( weather.windspeed, cur_om_ter, p, winddirection,
262 sheltered );
263
264 const int current_intensity = cur.get_field_intensity();
265 const field_type_id ft_id = cur.get_field_type();
266
267 const int scent_neutralize = ft_id->get_intensity_level( current_intensity -
269
270 if( scent_neutralize > 0 ) {
271 // modify scents by neutralization value (minus)
272 for( const tripoint &tmp : points_in_radius( p, 1 ) ) {
273 sblk.apply_gas( tmp, scent_neutralize );
274 }
275 }
276
277 // Dissipate faster outdoors.
278 if( is_outside( p ) ) {
279 const time_duration current_age = cur.get_field_age();
280 cur.set_field_age( current_age + outdoor_age_speedup );
281 }
282
283 // Bail out if we don't meet the spread chance or required intensity.
284 if( current_intensity <= 1 || rng( 1, 100 - windpower ) > percent_spread ) {
285 return;
286 }
287
288 // First check if we can fall
289 // TODO: Make fall and rise chances parameters to enable heavy/light gas
290 if( zlevels && p.z > -OVERMAP_DEPTH ) {
291 const tripoint down{ p.xy(), p.z - 1 };
292 if( gas_can_spread_to( cur, p, down ) && valid_move( p, down, true, true ) ) {
293 maptile down_tile = maptile_at_internal( down );
294 gas_spread_to( cur, down_tile, down );
295 return;
296 }
297 }
298
299 auto neighs = get_neighbors( p );
300 size_t end_it = static_cast<size_t>( rng( 0, neighs.size() - 1 ) );
301 std::vector<size_t> spread;
302 std::vector<size_t> neighbour_vec;
303 // Then, spread to a nearby point.
304 // If not possible (or randomly), try to spread up
305 // Wind direction will block the field spreading into the wind.
306 // Start at end_it + 1, then wrap around until all elements have been processed.
307 for( size_t i = ( end_it + 1 ) % neighs.size(), count = 0;
308 count != neighs.size();
309 i = ( i + 1 ) % neighs.size(), count++ ) {
310 const auto &neigh = neighs[i];
311 if( gas_can_spread_to( cur, p, neigh.first ) ) {
312 spread.push_back( i );
313 }
314 }
315 auto maptiles = get_wind_blockers( winddirection, p );
316 // Three map tiles that are facing the wind direction.
317 const maptile remove_tile = std::get<0>( maptiles );
318 const maptile remove_tile2 = std::get<1>( maptiles );
319 const maptile remove_tile3 = std::get<2>( maptiles );
320 if( !spread.empty() && ( !zlevels || one_in( spread.size() ) ) ) {
321 // Construct the destination from offset and p
322 if( g->is_sheltered( p ) || windpower < 5 ) {
323 std::pair<tripoint, maptile> &n = neighs[ random_entry( spread ) ];
324 gas_spread_to( cur, n.second, n.first );
325 } else {
326 end_it = static_cast<size_t>( rng( 0, neighs.size() - 1 ) );
327 // Start at end_it + 1, then wrap around until all elements have been processed.
328 for( size_t i = ( end_it + 1 ) % neighs.size(), count = 0;
329 count != neighs.size();
330 i = ( i + 1 ) % neighs.size(), count++ ) {
331 const auto &neigh = neighs[i].second;
332 if( ( neigh.pos_.x != remove_tile.pos_.x && neigh.pos_.y != remove_tile.pos_.y ) ||
333 ( neigh.pos_.x != remove_tile2.pos_.x && neigh.pos_.y != remove_tile2.pos_.y ) ||
334 ( neigh.pos_.x != remove_tile3.pos_.x && neigh.pos_.y != remove_tile3.pos_.y ) ) {
335 neighbour_vec.push_back( i );
336 } else if( x_in_y( 1, std::max( 2, windpower ) ) ) {
337 neighbour_vec.push_back( i );
338 }
339 }
340 if( !neighbour_vec.empty() ) {
341 std::pair<tripoint, maptile> &n = neighs[neighbour_vec[rng( 0, neighbour_vec.size() - 1 )]];
342 gas_spread_to( cur, n.second, n.first );
343 }
344 }
345 } else if( zlevels && p.z < OVERMAP_HEIGHT ) {
346 const tripoint up{ p.xy(), p.z + 1 };
347 if( gas_can_spread_to( cur, p, up ) && valid_move( p, up, true, true ) ) {
348 maptile up_tile = maptile_at_internal( up );
349 gas_spread_to( cur, up_tile, up );
350 }
351 }
352}
std::tuple< maptile, maptile, maptile > get_wind_blockers(const int &winddirection, const tripoint &pos)
Definition: map_field.cpp:1894
bool gas_can_spread_to(field_entry &cur, const tripoint &src, const tripoint &dst)
Definition: map_field.cpp:211
void gas_spread_to(field_entry &cur, maptile &dst, const tripoint &p)
Definition: map_field.cpp:225
coords::coord_point< tripoint, coords::origin::abs, coords::omt > tripoint_abs_omt
Definition: coordinates.h:493
double get_local_windpower(double windpower, const oter_id &omter, const tripoint &location, const int &winddirection, bool sheltered)
Definition: weather.cpp:938
const field_intensity_level & get_intensity_level(int level=0) const
Definition: field_type.cpp:130
point pos_
Definition: submap.h:272
void apply_gas(const tripoint &p, const int nintensity=0)
Definition: scent_block.h:77

References scent_block::apply_gas(), detail::count(), g, gas_can_spread_to(), gas_spread_to(), field_entry::get_field_age(), field_entry::get_field_intensity(), field_entry::get_field_type(), field_type::get_intensity_level(), get_local_windpower(), get_map(), get_neighbors(), get_weather(), get_wind_blockers(), getabs(), is_outside(), maptile_at_internal(), ms_to_omt_copy(), one_in(), overmap_buffer, OVERMAP_DEPTH, OVERMAP_HEIGHT, points_in_radius(), maptile::pos_, random_entry(), rng(), field_intensity_level::scent_neutralization, field_entry::set_field_age(), overmapbuffer::ter(), valid_move(), point::x, x_in_y(), tripoint::xy(), point::y, tripoint::z, and zlevels.

Referenced by process_fields_in_submap().

◆ stored_volume()

units::volume map::stored_volume ( const tripoint p)

Definition at line 4205 of file map.cpp.

4206{
4207 return i_at( p ).stored_volume();
4208}
units::volume stored_volume() const
Total volume of the items here.
Definition: item_stack.cpp:98

References i_at(), and item_stack::stored_volume().

◆ support_dirty()

void map::support_dirty ( const tripoint p)
private

Definition at line 2264 of file map.cpp.

2265{
2266 if( zlevels ) {
2267 support_cache_dirty.insert( p );
2268 }
2269}

References support_cache_dirty, and zlevels.

Referenced by add_field(), add_item_or_charges(), drop_furniture(), furn_set(), ter_set(), and update_suspension_cache().

◆ supports_above()

bool map::supports_above ( const tripoint p) const

Does this tile support vehicles and furniture above it.

Definition at line 2017 of file map.cpp.

2018{
2019 const maptile tile = maptile_at( p );
2020 const ter_t &ter = tile.get_ter_t();
2021 if( ter.movecost == 0 ) {
2022 return true;
2023 }
2024
2025 const furn_id frn_id = tile.get_furn();
2026 if( frn_id != f_null ) {
2027 const furn_t &frn = frn_id.obj();
2028 if( frn.movecost < 0 ) {
2029 return true;
2030 }
2031 }
2032
2033 return veh_at( p ).has_value();
2034}
constexpr bool has_value() const noexcept
Definition: optional.h:123
furn_id get_furn() const
Definition: submap.h:285

References f_null, maptile::get_furn(), maptile::get_ter_t(), cata::optional< T >::has_value(), maptile_at(), map_data_common_t::movecost, int_id< T >::obj(), ter(), and veh_at().

Referenced by vehicle::check_falling_or_floating(), and drop_furniture().

◆ ter() [1/2]

ter_id map::ter ( const point p) const
inline

Definition at line 877 of file map.h.

877 {
878 return ter( tripoint( p, abs_sub.z ) );
879 }

References abs_sub, ter(), and tripoint::z.

◆ ter() [2/2]

ter_id map::ter ( const tripoint p) const

Definition at line 1495 of file map.cpp.

1496{
1497 if( !inbounds( p ) ) {
1498 return t_null;
1499 }
1500
1501 point l;
1502 submap *const current_submap = get_submap_at( p, l );
1503
1504 return current_submap->get_ter( l );
1505}

References get_submap_at(), submap::get_ter(), inbounds(), and t_null.

Referenced by computer_session::action_conveyor(), computer_session::action_data_anal(), computer_session::action_deactivate_shock_vent(), computer_session::action_elevator_on(), computer_session::action_extract_rad_source(), computer_session::action_geiger(), computer_session::action_irradiator(), computer_session::action_sample(), computer_session::action_srcf_elevator(), computer_session::action_srcf_seal(), actualize(), ter_furn_transform::add_all_messages(), add_boardable(), apply< ter_t >(), cata_event_dispatch::avatar_moves(), bash_rating(), bash_resistance(), bash_strength(), bash_ter_furn(), bash_ter_success(), board_up(), MapExtras::burned_ground_parser(), activity_handlers::burrow_finish(), can_construct(), can_do_activity_there(), can_examine_at(), iexamine::cardreader(), iexamine::cardreader_foodplace(), construct::check_deconstruct(), vehicle::autodrive_controller::check_drivable(), activity_handlers::chop_logs_finish(), chop_tree_activity(), close_door(), complete_construction(), coverage(), iexamine::curtains(), MapExtras::dead_vegetation_parser(), determine_wall_corner(), displace_water(), construct::done_deconstruct(), construct::done_digormine_stair(), construct::done_extract_maybe_revert_to_dirt(), construct::done_mine_upstair(), editmap_hilight::draw(), draw_connections(), draw_lab(), editmap::draw_main_ui_overlay(), draw_mine(), draw_temple(), draw_triffid(), avatar_action::eat_here(), explosion_handler::emp_blast(), examine(), game::examine(), game::extended_description(), computer_session::failure_destroy_data(), computer_session::failure_pump_explode(), computer_session::failure_pump_leak(), feature< ter_id >(), talk_function::field_plant(), activity_handlers::fill_liquid_do_turn(), activity_handlers::fill_pit_finish(), find_base_construction(), game::find_or_make_stairs(), find_potential_computer_point(), dig_activity_actor::finish(), dig_channel_activity_actor::finish(), hacking_activity_actor::finish(), Character::floor_bedding_warmth(), fromPumpFuel(), iexamine::fswitch(), gas_can_spread_to(), generic_multi_activity_locations(), get_changed_ids_from_update(), get_hack_type(), get_harvest(), get_harvest_names(), get_known_connections(), get_roof(), get_ter_transforms_into(), iexamine::getGasPumpByNumber(), iexamine::getNearFilledGasTank(), getNearPumpCount(), activity_handlers::hacksaw_finish(), has_flag_ter(), has_neighbor(), has_pre_terrain(), hit_with_acid(), advanced_inv_area::init(), is_bashable(), is_bashable_ter(), anonymous_namespace{gates.cpp}::gate_data::is_suitable_wall(), is_suspension_valid(), iexamine::ledge(), talk_function::loot_building(), mapgen_ants_generic(), mapgen_lake_shore(), fungal_effects::marlossify(), map_stack::max_volume(), avatar_action::move(), move_cost(), move_vehicle(), MapExtras::mx_grove(), MapExtras::mx_helicopter(), MapExtras::mx_house_spider(), MapExtras::mx_house_wasp(), MapExtras::mx_portal_in(), MapExtras::mx_shrubbery(), iexamine::nanofab(), obstacle_coverage(), om_cutdown_trees(), om_harvest_ter(), open(), open_door(), gates::open_gate(), activity_handlers::oxytorch_finish(), iexamine::pedestal_wyrm(), tutorial_game::per_turn(), activity_handlers::pickaxe_finish(), iexamine::pit(), iexamine::pit_covered(), mission_start::place_deposit_box(), place_items(), game::place_player(), game::print_fields_info(), game::print_graffiti_info(), game::print_terrain_info(), process_fields_in_submap(), process_items_in_submap(), produce_sap(), activity_handlers::pry_nails_finish(), rad_scorch(), resolve_regional_terrain_and_furniture(), restock_fruits(), mission_start::reveal_lab_train_depot(), shoot(), supports_above(), ter(), tername(), iexamine::toPumpFuel(), ter_furn_transform::transform(), translate(), translate_radius(), trap_set(), turnOnSelectedPump(), Character::update_bodytemp(), update_suspension_cache(), editmap::update_view_with_help(), vehicle_wheel_traction(), game::vertical_move(), game::walk_move(), and water_from().

◆ ter_set() [1/2]

bool map::ter_set ( const point p,
const ter_id new_terrain 
)
inline

Definition at line 902 of file map.h.

902 {
903 return ter_set( tripoint( p, abs_sub.z ), new_terrain );
904 }

References abs_sub, ter_set(), and tripoint::z.

◆ ter_set() [2/2]

bool map::ter_set ( const tripoint p,
const ter_id new_terrain 
)

Definition at line 1636 of file map.cpp.

1637{
1638 if( !inbounds( p ) ) {
1639 return false;
1640 }
1641
1642 point l;
1643 submap *const current_submap = get_submap_at( p, l );
1644 const ter_id old_id = current_submap->get_ter( l );
1645 if( old_id == new_terrain ) {
1646 // Nothing changed
1647 return false;
1648 }
1649
1650 current_submap->set_ter( l, new_terrain );
1651
1652 // Set the dirty flags
1653 const ter_t &old_t = old_id.obj();
1654 const ter_t &new_t = new_terrain.obj();
1655
1656 // HACK: Hack around ledges in traplocs or else it gets NASTY in z-level mode
1657 if( old_t.trap != tr_null && old_t.trap != tr_ledge ) {
1658 auto &traps = traplocs[old_t.trap.to_i()];
1659 const auto iter = std::find( traps.begin(), traps.end(), p );
1660 if( iter != traps.end() ) {
1661 traps.erase( iter );
1662 }
1663 }
1664 if( new_t.trap != tr_null && new_t.trap != tr_ledge ) {
1665 traplocs[new_t.trap.to_i()].push_back( p );
1666 }
1667
1668 if( old_t.transparent != new_t.transparent ) {
1671 }
1672
1673 if( old_t.has_flag( TFLAG_INDOORS ) != new_t.has_flag( TFLAG_INDOORS ) ) {
1675 }
1676
1677 if( new_t.has_flag( TFLAG_NO_FLOOR ) != old_t.has_flag( TFLAG_NO_FLOOR ) ) {
1679 // It's a set, not a flag
1680 support_cache_dirty.insert( p );
1682 }
1683
1684 if( new_t.has_flag( TFLAG_SUSPENDED ) != old_t.has_flag( TFLAG_SUSPENDED ) ) {
1686 if( new_t.has_flag( TFLAG_SUSPENDED ) ) {
1687 level_cache &ch = get_cache( p.z );
1688 ch.suspension_cache.emplace_back( getabs( p ).xy() );
1689 }
1690 }
1691
1693
1695
1696 // TODO: Limit to changes that affect move cost, traps and stairs
1698
1699 tripoint above( p.xy(), p.z + 1 );
1700 // Make sure that if we supported something and no longer do so, it falls down
1701 support_dirty( above );
1702
1703 return true;
1704}
std::list< point > suspension_cache
Definition: map.h:312
trap_id trap
Definition: mapdata.h:469

References detail::find(), get_cache(), get_submap_at(), submap::get_ter(), getabs(), map_data_common_t::has_flag(), inbounds(), invalidate_max_populated_zlev(), int_id< T >::obj(), set_floor_cache_dirty(), set_memory_seen_cache_dirty(), set_outside_cache_dirty(), set_pathfinding_cache_dirty(), set_seen_cache_dirty(), set_suspension_cache_dirty(), submap::set_ter(), set_transparency_cache_dirty(), support_cache_dirty, support_dirty(), level_cache::suspension_cache, TFLAG_INDOORS, TFLAG_NO_FLOOR, TFLAG_SUSPENDED, int_id< T >::to_i(), tr_ledge, tr_null, map_data_common_t::transparent, ter_t::trap, traplocs, tripoint::xy(), and tripoint::z.

Referenced by computer_session::action_elevator_on(), computer_session::action_srcf_elevator(), add_computer(), jmapgen_terrain::apply(), jmapgen_computer::apply(), jmapgen_setmap::apply(), apply< ter_t >(), bash_ter_success(), board_up(), MapExtras::burned_ground_parser(), iexamine::cardreader(), iexamine::cardreader_foodplace(), iexamine::cardreader_robofac(), activity_handlers::chop_logs_finish(), activity_handlers::chop_tree_finish(), activity_handlers::churn_finish(), close_door(), collapse_at(), collapse_invalid_suspension(), complete_construction(), iexamine::curtains(), MapExtras::dead_vegetation_parser(), displace_water(), construct::done_deconstruct(), construct::done_digormine_stair(), construct::done_extract_maybe_revert_to_dirt(), construct::done_mine_upstair(), construct::done_ramp_high(), construct::done_ramp_low(), construct::done_wood_stairs(), draw_anthill(), draw_circle_ter(), draw_connections(), draw_lab(), draw_line_ter(), draw_mine(), draw_rough_circle_ter(), draw_slimepit(), draw_square_ter(), draw_temple(), draw_triffid(), avatar_action::eat_here(), explosion_handler::emp_blast(), computer_session::failure_pump_leak(), computer_session::failure_shutdown(), farm_action(), talk_function::field_harvest(), activity_handlers::fill_pit_finish(), dig_activity_actor::finish(), dig_channel_activity_actor::finish(), hacking_activity_actor::finish(), activity_handlers::forage_finish(), game::forced_door_closing(), mapgen_function_json_base::formatted_set_incredibly_simple(), mapf::formatted_set_simple(), fromPumpFuel(), iexamine::fswitch(), activity_handlers::hacksaw_finish(), iexamine::harvest_plant(), iexamine::harvest_ter(), iexamine::harvest_ter_nectar(), hit_with_acid(), talk_function::loot_building(), make_rubble(), mapgen_ants_curved(), mapgen_ants_four_way(), mapgen_ants_generic(), mapgen_ants_straight(), mapgen_ants_tee(), mapgen_cavern(), mapgen_crater(), mapgen_field(), mapgen_forest_trail_curved(), mapgen_forest_trail_four_way(), mapgen_forest_trail_straight(), mapgen_forest_trail_tee(), mapgen_hellmouth(), mapgen_highway(), mapgen_hive(), mapgen_lake_shore(), mapgen_null(), mapgen_parking_lot(), mapgen_rift(), mapgen_river_curved(), mapgen_river_curved_not(), mapgen_river_straight(), mapgen_road(), mapgen_rock_partial(), mapgen_sewer_curved(), mapgen_sewer_four_way(), mapgen_sewer_straight(), mapgen_sewer_tee(), mapgen_test(), mapgen_tutorial(), fungal_effects::marlossify(), move_vehicle(), MapExtras::mx_bandits_block(), MapExtras::mx_clay_deposit(), MapExtras::mx_clearcut(), MapExtras::mx_grave(), MapExtras::mx_grove(), MapExtras::mx_helicopter(), MapExtras::mx_house_wasp(), MapExtras::mx_pond(), MapExtras::mx_portal_in(), MapExtras::mx_roadblock(), MapExtras::mx_shrubbery(), MapExtras::mx_spider(), om_cutdown_trees(), om_harvest_ter(), om_set_hide_site(), open_door(), gates::open_gate(), activity_handlers::oxytorch_finish(), iexamine::pedestal_temple(), iexamine::pedestal_wyrm(), pick_plant(), iexamine::pit(), iexamine::pit_covered(), MapExtras::place_fumarole(), place_gas_pump(), mission_start::place_npc_software(), process_fields_in_submap(), activity_handlers::pry_nails_finish(), rad_scorch(), mission_start::ranch_nurse_4(), mission_start::ranch_nurse_5(), mission_start::ranch_scavenger_2(), mission_start::ranch_scavenger_3(), resolve_regional_terrain_and_furniture(), restock_fruits(), science_room(), set(), iexamine::shrub_marloss(), fungal_effects::spread_fungus_one_tile(), ter_or_furn_set(), ter_set(), iexamine::toPumpFuel(), ter_furn_transform::transform(), translate(), translate_radius(), iexamine::tree_hickory(), iexamine::tree_maple(), iexamine::tree_maple_tapped(), iexamine::tree_marloss(), turnOnSelectedPump(), and game::vertical_move().

◆ tername() [1/2]

std::string map::tername ( const point p) const
inline

Definition at line 907 of file map.h.

907 {
908 return tername( tripoint( p, abs_sub.z ) );
909 }

References abs_sub, tername(), and tripoint::z.

◆ tername() [2/2]

◆ tinder_at()

bool map::tinder_at ( const tripoint p)

Checks if there are any tinder flagged items on the tile.

Parameters
ptile to check

Definition at line 2612 of file map.cpp.

2613{
2614 for( const auto &i : i_at( p ) ) {
2615 if( i.has_flag( "TINDER" ) ) {
2616 return true;
2617 }
2618 }
2619 return false;
2620}

References i_at().

Referenced by activity_handlers::start_fire_do_turn().

◆ tr_at()

◆ translate()

void map::translate ( const ter_id from,
const ter_id to 
)

Definition at line 3914 of file map.cpp.

3915{
3916 if( from == to ) {
3917 debugmsg( "map::translate %s => %s",
3918 from.obj().name(),
3919 from.obj().name() );
3920 return;
3921 }
3922 for( const tripoint &p : points_on_zlevel() ) {
3923 if( ter( p ) == from ) {
3924 ter_set( p, to );
3925 }
3926 }
3927}

References debugmsg, map_data_common_t::name(), int_id< T >::obj(), points_on_zlevel(), ter(), and ter_set().

Referenced by jmapgen_translate::apply(), mapgen_lake_shore(), start_location::prepare_map(), mission_start::ranch_nurse_5(), mission_start::ranch_nurse_6(), mission_start::ranch_nurse_7(), mission_start::ranch_nurse_8(), and mission_start::ranch_scavenger_3().

◆ translate_radius()

void map::translate_radius ( const ter_id from,
const ter_id to,
float  radi,
const tripoint p,
bool  same_submap = false,
bool  toggle_between = false 
)

Definition at line 3930 of file map.cpp.

3932{
3933 if( from == to ) {
3934 debugmsg( "map::translate %s => %s", from.obj().name(), to.obj().name() );
3935 return;
3936 }
3937
3938 const tripoint abs_omt_p = ms_to_omt_copy( getabs( p ) );
3939 for( const tripoint &t : points_on_zlevel() ) {
3940 const tripoint abs_omt_t = ms_to_omt_copy( getabs( t ) );
3941 const float radiX = trig_dist( p, t );
3942 if( ter( t ) == from ) {
3943 // within distance, and either no submap limitation or same overmap coords.
3944 if( radiX <= radi && ( !same_submap || abs_omt_t == abs_omt_p ) ) {
3945 ter_set( t, to );
3946 }
3947 } else if( toggle_between && ter( t ) == to ) {
3948 if( radiX <= radi && ( !same_submap || abs_omt_t == abs_omt_p ) ) {
3949 ter_set( t, from );
3950 }
3951 }
3952 }
3953}

References debugmsg, getabs(), ms_to_omt_copy(), map_data_common_t::name(), int_id< T >::obj(), points_on_zlevel(), ter(), ter_set(), and trig_dist().

Referenced by computer_session::action_extract_rad_source(), computer_session::action_irradiator(), computer_session::action_lock(), computer_session::action_open(), computer_session::action_release(), computer_session::action_release_bionics(), computer_session::action_shutters(), and computer_session::action_unlock().

◆ trap_locations()

const std::vector< tripoint > & map::trap_locations ( const trap_id type) const

Definition at line 7739 of file map.cpp.

7740{
7741 return traplocs[type.to_i()];
7742}

References traplocs, and type.

◆ trap_set()

void map::trap_set ( const tripoint p,
const trap_id type 
)

Definition at line 5169 of file map.cpp.

5170{
5171 if( !inbounds( p ) ) {
5172 return;
5173 }
5174
5175 point l;
5176 submap *const current_submap = get_submap_at( p, l );
5177 const ter_t &ter = current_submap->get_ter( l ).obj();
5178 if( ter.trap != tr_null ) {
5179 debugmsg( "set trap %s on top of terrain %s which already has a builit-in trap",
5180 type.obj().name(), ter.name() );
5181 return;
5182 }
5183
5184 // If there was already a trap here, remove it.
5185 if( current_submap->get_trap( l ) != tr_null ) {
5186 remove_trap( p );
5187 }
5188
5189 current_submap->set_trap( l, type );
5190 if( type != tr_null ) {
5191 traplocs[type.to_i()].push_back( p );
5192 }
5193}
void remove_trap(const tripoint &p)
Definition: map.cpp:5253

References debugmsg, get_submap_at(), submap::get_ter(), submap::get_trap(), inbounds(), int_id< T >::obj(), remove_trap(), submap::set_trap(), ter(), tr_null, traplocs, and type.

Referenced by jmapgen_trap::apply(), apply< trap >(), construction_activity(), construct::done_mark_firewood(), construct::done_mark_practice_target(), draw_lab(), vehicle::handle_trap(), mtrap_set(), MapExtras::mx_portal(), place_and_add_as_known(), place_construction(), and explosion_handler::explosion_funcs::resonance_cascade().

◆ unboard_vehicle() [1/2]

void map::unboard_vehicle ( const tripoint p,
bool  dead_passenger = false 
)

Definition at line 1098 of file map.cpp.

1099{
1101 player *passenger = nullptr;
1102 if( !vp ) {
1103 debugmsg( "map::unboard_vehicle: vehicle not found" );
1104 // Try and force unboard the player anyway.
1105 passenger = g->critter_at<player>( p );
1106 if( passenger ) {
1107 passenger->in_vehicle = false;
1108 passenger->controlling_vehicle = false;
1109 }
1110 return;
1111 }
1112 passenger = vp->get_passenger();
1113 unboard_vehicle( *vp, passenger, dead_passenger );
1114}
bool controlling_vehicle
Definition: character.h:228

References Character::controlling_vehicle, debugmsg, g, Character::in_vehicle, optional_vpart_position::part_with_feature(), unboard_vehicle(), veh_at(), and VPFLAG_BOARDABLE.

◆ unboard_vehicle() [2/2]

void map::unboard_vehicle ( const vpart_reference vp,
Character passenger,
bool  dead_passenger = false 
)

Definition at line 1078 of file map.cpp.

1079{
1080 // Mark the part as un-occupied regardless of whether there's a live passenger here.
1082 vp.vehicle().invalidate_mass();
1083
1084 if( !passenger ) {
1085 if( !dead_passenger ) {
1086 debugmsg( "map::unboard_vehicle: passenger not found" );
1087 }
1088 return;
1089 }
1090 passenger->in_vehicle = false;
1091 // Only make vehicle go out of control if the driver is the one unboarding.
1092 if( passenger->controlling_vehicle ) {
1093 vp.vehicle().skidding = true;
1094 }
1095 passenger->controlling_vehicle = false;
1096}
void invalidate_mass()
Mark mass caches and pivot cache as dirty.
Definition: vehicle.cpp:6968
vehicle_part & part() const
Yields the vehicle_part object referenced by this.
Definition: vehicle.cpp:6771
::vehicle & vehicle() const

References Character::controlling_vehicle, debugmsg, Character::in_vehicle, vehicle::invalidate_mass(), vpart_reference::part(), vehicle_part::passenger_flag, vehicle_part::remove_flag(), vehicle::skidding, and vpart_reference::vehicle().

Referenced by board_vehicle(), iexamine::chainfence(), detach_vehicle(), game::fling_creature(), talk_function::individual_mission(), game::is_game_over(), npc::move_to(), game::moving_vehicle_dismount(), game::phasing_move(), game::place_player(), game::place_player_overmap(), mattack::ranged_pull(), shake_vehicle(), game::swap_critters(), avatar_action::swim(), unboard_vehicle(), and game::vertical_move().

◆ update_lum()

void map::update_lum ( item_location loc,
bool  add 
)

Update luminosity before and after item's transformation.

Definition at line 4428 of file map.cpp.

4429{
4430 item *target = loc.get_item();
4431
4432 // if the item is not emissive, do nothing
4433 if( !target->is_emissive() ) {
4434 return;
4435 }
4436
4437 point l;
4438 submap *const current_submap = get_submap_at( loc.position(), l );
4439
4440 if( add ) {
4441 current_submap->update_lum_add( l, *target );
4442 } else {
4443 current_submap->update_lum_rem( l, *target );
4444 }
4445}
bool is_emissive() const
Whether the item emits any light at all.
Definition: item.cpp:6814

References om_direction::add(), item_location::get_item(), get_submap_at(), item::is_emissive(), item_location::position(), submap::update_lum_add(), and submap::update_lum_rem().

Referenced by update_lum().

◆ update_pathfinding_cache()

void map::update_pathfinding_cache ( int  zlev) const

Definition at line 8770 of file map.cpp.

8771{
8772 auto &cache = get_pathfinding_cache( zlev );
8773 if( !cache.dirty ) {
8774 return;
8775 }
8776
8777 std::uninitialized_fill_n( &cache.special[0][0], MAPSIZE_X * MAPSIZE_Y, PF_NORMAL );
8778
8779 for( int smx = 0; smx < my_MAPSIZE; ++smx ) {
8780 for( int smy = 0; smy < my_MAPSIZE; ++smy ) {
8781 const auto cur_submap = get_submap_at_grid( { smx, smy, zlev } );
8782 if( !cur_submap ) {
8783 return;
8784 }
8785
8786 tripoint p( 0, 0, zlev );
8787
8788 for( int sx = 0; sx < SEEX; ++sx ) {
8789 p.x = sx + smx * SEEX;
8790 for( int sy = 0; sy < SEEY; ++sy ) {
8791 p.y = sy + smy * SEEY;
8792
8793 pf_special cur_value = PF_NORMAL;
8794
8795 maptile tile( cur_submap, point( sx, sy ) );
8796
8797 const auto &terrain = tile.get_ter_t();
8798 const auto &furniture = tile.get_furn_t();
8799 int part;
8800 const vehicle *veh = veh_at_internal( p, part );
8801
8802 const int cost = move_cost_internal( furniture, terrain, veh, part );
8803
8804 if( cost > 2 ) {
8805 cur_value |= PF_SLOW;
8806 } else if( cost <= 0 ) {
8807 cur_value |= PF_WALL;
8808 if( terrain.has_flag( TFLAG_CLIMBABLE ) ) {
8809 cur_value |= PF_CLIMBABLE;
8810 }
8811 }
8812
8813 if( veh != nullptr ) {
8814 cur_value |= PF_VEHICLE;
8815 }
8816
8817 for( const auto &fld : tile.get_field() ) {
8818 const field_entry &cur = fld.second;
8819 const field_type_id type = cur.get_field_type();
8820 const int field_intensity = cur.get_field_intensity();
8821 if( type.obj().get_dangerous( field_intensity - 1 ) ) {
8822 cur_value |= PF_FIELD;
8823 }
8824 }
8825
8826 if( !tile.get_trap_t().is_benign() || !terrain.trap.obj().is_benign() ) {
8827 cur_value |= PF_TRAP;
8828 }
8829
8830 if( terrain.has_flag( TFLAG_GOES_DOWN ) || terrain.has_flag( TFLAG_GOES_UP ) ||
8831 terrain.has_flag( TFLAG_RAMP ) || terrain.has_flag( TFLAG_RAMP_UP ) ||
8832 terrain.has_flag( TFLAG_RAMP_DOWN ) ) {
8833 cur_value |= PF_UPDOWN;
8834 }
8835
8836 if( terrain.has_flag( TFLAG_SHARP ) ) {
8837 cur_value |= PF_SHARP;
8838 }
8839
8840 cache.special[p.x][p.y] = cur_value;
8841 }
8842 }
8843 }
8844 }
8845
8846 cache.dirty = false;
8847}
@ TFLAG_CLIMBABLE
Definition: mapdata.h:307
@ TFLAG_SHARP
Definition: mapdata.h:296
pf_special
Definition: pathfinding.h:7
@ PF_NORMAL
Definition: pathfinding.h:8
@ PF_FIELD
Definition: pathfinding.h:12

References furniture, maptile::get_field(), field_entry::get_field_intensity(), field_entry::get_field_type(), maptile::get_furn_t(), get_pathfinding_cache(), get_submap_at_grid(), maptile::get_ter_t(), maptile::get_trap_t(), trap::is_benign(), MAPSIZE_X, MAPSIZE_Y, move_cost_internal(), my_MAPSIZE, PF_CLIMBABLE, PF_FIELD, PF_NORMAL, PF_SHARP, PF_SLOW, PF_TRAP, PF_UPDOWN, PF_VEHICLE, PF_WALL, SEEX, SEEY, sx, sy, terrain, TFLAG_CLIMBABLE, TFLAG_GOES_DOWN, TFLAG_GOES_UP, TFLAG_RAMP, TFLAG_RAMP_DOWN, TFLAG_RAMP_UP, TFLAG_SHARP, type, veh_at_internal(), tripoint::x, and tripoint::y.

Referenced by get_pathfinding_cache_ref().

◆ update_submap_active_item_status()

void map::update_submap_active_item_status ( const tripoint p)

Definition at line 5579 of file map.cpp.

5580{
5581 point l;
5582 submap *const current_submap = get_submap_at( p, l );
5583 if( current_submap->active_items.empty() ) {
5584 submaps_with_active_items.erase( tripoint( abs_sub.x + p.x / SEEX, abs_sub.y + p.y / SEEY, p.z ) );
5585 }
5586}

References abs_sub, submap::active_items, active_item_cache::empty(), get_submap_at(), SEEX, SEEY, submaps_with_active_items, tripoint::x, tripoint::y, and tripoint::z.

◆ update_suspension_cache()

void map::update_suspension_cache ( const int &  z)

Definition at line 8046 of file map.cpp.

8047{
8048 level_cache &ch = get_cache( z );
8049 if( !ch.suspension_cache_dirty ) {
8050 return;
8051 }
8052 std::list<point> &suspension_cache = ch.suspension_cache;
8054 for( int smx = 0; smx < my_MAPSIZE; ++smx ) {
8055 for( int smy = 0; smy < my_MAPSIZE; ++smy ) {
8056 const submap *cur_submap = get_submap_at_grid( { smx, smy, z } );
8057
8058 if( cur_submap == nullptr ) {
8059 debugmsg( "Tried to run suspension check at (%d,%d,%d) but the submap is not loaded", smx, smy,
8060 z );
8061 continue;
8062 }
8063
8064 for( int sx = 0; sx < SEEX; ++sx ) {
8065 for( int sy = 0; sy < SEEY; ++sy ) {
8066 point sp( sx, sy );
8067 const ter_t &terrain = cur_submap->get_ter( sp ).obj();
8068 if( terrain.has_flag( TFLAG_SUSPENDED ) ) {
8069 tripoint loc( coords::project_combine( point_om_sm( point( smx, smy ) ), point_sm_ms( sp ) ).raw(),
8070 z );
8071 suspension_cache.emplace_back( getabs( loc ).xy() );
8072 }
8073 }
8074 }
8075 }
8076 }
8078 }
8079
8080 for( auto iter = suspension_cache.begin(); iter != suspension_cache.end(); ) {
8081 const point absp = *iter;
8082 const point locp = getlocal( absp );
8083 const tripoint loctp( locp, z );
8084 if( !inbounds( locp ) ) {
8085 ++iter;
8086 continue;
8087 }
8088 const submap *cur_submap = get_submap_at( loctp );
8089 if( cur_submap == nullptr ) {
8090 debugmsg( "Tried to run suspension check at (%d,%d,%d) but the submap is not loaded", locp.x,
8091 locp.y, z );
8092 ++iter;
8093 continue;
8094 }
8095 const ter_t &terrain = ter( locp ).obj();
8096 if( terrain.has_flag( TFLAG_SUSPENDED ) ) {
8097 if( !is_suspension_valid( loctp ) ) {
8098 support_dirty( loctp );
8099 iter = suspension_cache.erase( iter );
8100 } else {
8101 ++iter;
8102 }
8103 } else {
8104 iter = suspension_cache.erase( iter );
8105 }
8106 }
8107 ch.suspension_cache_dirty = false;
8108}
coords::coord_point< point, coords::origin::overmap, coords::sm > point_om_sm
Definition: coordinates.h:477
auto project_combine(const coord_point< PointL, CoarseOrigin, CoarseScale > &coarse, const coord_point< PointR, FineOrigin, FineScale > &fine)
Definition: coordinates.h:413
bool suspension_cache_initialized
Definition: map.h:310

References debugmsg, get_cache(), get_submap_at(), get_submap_at_grid(), submap::get_ter(), getabs(), getlocal(), inbounds(), is_suspension_valid(), my_MAPSIZE, int_id< T >::obj(), coords::project_combine(), SEEX, SEEY, support_dirty(), level_cache::suspension_cache, level_cache::suspension_cache_dirty, level_cache::suspension_cache_initialized, sx, sy, ter(), terrain, TFLAG_SUSPENDED, point::x, and point::y.

Referenced by build_map_cache().

◆ update_vehicle_cache()

void map::update_vehicle_cache ( vehicle ,
int  old_zlevel 
)

◆ update_vehicle_list()

void map::update_vehicle_list ( const submap to,
int  zlev 
)

Definition at line 338 of file map.cpp.

339{
340 // Update vehicle data
341 level_cache &ch = get_cache( zlev );
342 for( const auto &elem : to->vehicles ) {
343 ch.vehicle_list.insert( elem.get() );
344 if( !elem->loot_zones.empty() ) {
345 ch.zone_vehicles.insert( elem.get() );
346 }
347 }
348
350}

References get_cache(), last_full_vehicle_list_dirty, level_cache::vehicle_list, submap::vehicles, and level_cache::zone_vehicles.

Referenced by displace_vehicle(), editmap::mapgen_preview(), rotate(), shift(), and shift_vehicle_z().

◆ update_visibility_cache()

void map::update_visibility_cache ( int  zlev)

Definition at line 5588 of file map.cpp.

5589{
5590 visibility_variables_cache.variables_set = true; // Not used yet
5591 visibility_variables_cache.g_light_level = static_cast<int>( g->light_level( zlev ) );
5592 visibility_variables_cache.vision_threshold = g->u.get_vision_threshold(
5593 get_cache_ref( g->u.posz() ).lm[g->u.posx()][g->u.posy()].max() );
5594
5595 visibility_variables_cache.u_clairvoyance = g->u.clairvoyance();
5596 visibility_variables_cache.u_sight_impaired = g->u.sight_impaired();
5598
5599 int sm_squares_seen[MAPSIZE][MAPSIZE];
5600 std::memset( sm_squares_seen, 0, sizeof( sm_squares_seen ) );
5601
5602 int min_z = fov_3d ? -OVERMAP_DEPTH : zlev;
5603 int max_z = fov_3d ? OVERMAP_HEIGHT : zlev;
5604
5605 for( int z = min_z; z <= max_z; z++ ) {
5606
5607 auto &visibility_cache = get_cache( z ).visibility_cache;
5608
5609 tripoint p;
5610 p.z = z;
5611 int &x = p.x;
5612 int &y = p.y;
5613 for( x = 0; x < MAPSIZE_X; x++ ) {
5614 for( y = 0; y < MAPSIZE_Y; y++ ) {
5616 visibility_cache[x][y] = ll;
5617 if( z == zlev ) {
5618 sm_squares_seen[ x / SEEX ][ y / SEEY ] += ( ll == lit_level::BRIGHT || ll == lit_level::LIT );
5619 }
5620 }
5621 }
5622 }
5623
5624 for( int gridx = 0; gridx < my_MAPSIZE; gridx++ ) {
5625 for( int gridy = 0; gridy < my_MAPSIZE; gridy++ ) {
5626 if( sm_squares_seen[gridx][gridy] > 36 ) { // 25% of the submap is visible
5627 const tripoint sm( gridx, gridy, 0 );
5628 const auto abs_sm = map::abs_sub + sm;
5629 // TODO: fix point types
5630 const tripoint_abs_omt abs_omt( sm_to_omt_copy( abs_sm ) );
5631 overmap_buffer.set_seen( abs_omt, true );
5632 }
5633 }
5634 }
5635}
lit_level apparent_light_at(const tripoint &p, const visibility_variables &cache) const
Determine the visible light level for a tile, based on light_at for the tile, vision distance,...
Definition: lightmap.cpp:700
void set_seen(const tripoint_abs_omt &p, bool seen=true)
static const efftype_id effect_boomered("boomered")
bool variables_set
Definition: map.h:122
bool u_sight_impaired
Definition: map.h:123

References abs_sub, apparent_light_at(), BRIGHT, effect_boomered, fov_3d, g, visibility_variables::g_light_level, get_cache(), get_cache_ref(), LIT, level_cache::lm, MAPSIZE, MAPSIZE_X, MAPSIZE_Y, four_quadrants::max(), my_MAPSIZE, overmap_buffer, OVERMAP_DEPTH, OVERMAP_HEIGHT, SEEX, SEEY, overmapbuffer::set_seen(), coords::sm, sm_to_omt_copy(), visibility_variables::u_clairvoyance, visibility_variables::u_is_boomered, visibility_variables::u_sight_impaired, visibility_variables::variables_set, level_cache::visibility_cache, visibility_variables_cache, visibility_variables::vision_threshold, tripoint::x, tripoint::y, and tripoint::z.

Referenced by game::draw(), draw(), game::get_player_input(), and game::look_around().

◆ use_amount()

std::list< item > map::use_amount ( const tripoint origin,
int  range,
const itype_id type,
int &  quantity,
const std::function< bool(const item &)> &  filter = return_true<item> 
)

Definition at line 4801 of file map.cpp.

4803{
4804 std::list<item> ret;
4805 for( int radius = 0; radius <= range && quantity > 0; radius++ ) {
4806 for( const tripoint &p : points_in_radius( origin, radius ) ) {
4807 if( rl_dist( origin, p ) >= radius ) {
4808 std::list<item> tmp = use_amount_square( p, type, quantity, filter );
4809 ret.splice( ret.end(), tmp );
4810 }
4811 }
4812 }
4813 return ret;
4814}
std::list< item > use_amount_square(const tripoint &p, const itype_id &type, int &quantity, const std::function< bool(const item &)> &filter=return_true< item >)
Definition: map.cpp:4779

References points_in_radius(), cata::hash64_detail::ret, rl_dist(), type, and use_amount_square().

◆ use_amount_square()

std::list< item > map::use_amount_square ( const tripoint p,
const itype_id type,
int &  quantity,
const std::function< bool(const item &)> &  filter = return_true<item> 
)

Definition at line 4779 of file map.cpp.

4781{
4782 std::list<item> ret;
4783 // Handle infinite map sources.
4784 item water = water_from( p );
4785 if( water.typeId() == type ) {
4786 ret.push_back( water );
4787 quantity = 0;
4788 return ret;
4789 }
4790
4791 if( const cata::optional<vpart_reference> vp = veh_at( p ).part_with_feature( "CARGO", true ) ) {
4792 std::list<item> tmp = use_amount_stack( vp->vehicle().get_items( vp->part_index() ), type,
4793 quantity, filter );
4794 ret.splice( ret.end(), tmp );
4795 }
4796 std::list<item> tmp = use_amount_stack( i_at( p ), type, quantity, filter );
4797 ret.splice( ret.end(), tmp );
4798 return ret;
4799}
item water_from(const tripoint &p)
Definition: map.cpp:4367
std::list< item > use_amount_stack(Stack stack, const itype_id &type, int &quantity, const std::function< bool(const item &)> &filter)
Definition: map.cpp:4765

References i_at(), cata::hash64_detail::ret, type, item::typeId(), use_amount_stack(), veh_at(), and water_from().

Referenced by use_amount().

◆ use_charges()

std::list< item > map::use_charges ( const tripoint origin,
int  range,
const itype_id type,
int &  quantity,
const std::function< bool(const item &)> &  filter = return_true<item>,
basecamp bcp = nullptr 
)

Definition at line 4897 of file map.cpp.

4900{
4901 std::list<item> ret;
4902
4903 // populate a grid of spots that can be reached
4904 std::vector<tripoint> reachable_pts;
4905 reachable_flood_steps( reachable_pts, origin, range, 1, 100 );
4906
4907 // We prefer infinite map sources where available, so search for those
4908 // first
4909 for( const tripoint &p : reachable_pts ) {
4910 // Handle infinite map sources.
4911 item water = water_from( p );
4912 if( water.typeId() == type ) {
4913 water.charges = quantity;
4914 ret.push_back( water );
4915 quantity = 0;
4916 return ret;
4917 }
4918 }
4919
4920 if( bcp ) {
4921 ret = bcp->use_charges( type, quantity );
4922 if( quantity <= 0 ) {
4923 return ret;
4924 }
4925 }
4926
4927 for( const tripoint &p : reachable_pts ) {
4928 if( has_furn( p ) ) {
4929 use_charges_from_furn( furn( p ).obj(), type, quantity, this, p, ret, filter );
4930 if( quantity <= 0 ) {
4931 return ret;
4932 }
4933 }
4934
4935 if( accessible_items( p ) ) {
4936 std::list<item> tmp = use_charges_from_stack( i_at( p ), type, quantity, p, filter );
4937 ret.splice( ret.end(), tmp );
4938 if( quantity <= 0 ) {
4939 return ret;
4940 }
4941 }
4942
4943 const optional_vpart_position vp = veh_at( p );
4944 if( !vp ) {
4945 continue;
4946 }
4947
4948 const cata::optional<vpart_reference> kpart = vp.part_with_feature( "FAUCET", true );
4949 const cata::optional<vpart_reference> weldpart = vp.part_with_feature( "WELDRIG", true );
4950 const cata::optional<vpart_reference> craftpart = vp.part_with_feature( "CRAFTRIG", true );
4951 const cata::optional<vpart_reference> forgepart = vp.part_with_feature( "FORGE", true );
4952 const cata::optional<vpart_reference> kilnpart = vp.part_with_feature( "KILN", true );
4953 const cata::optional<vpart_reference> chempart = vp.part_with_feature( "CHEMLAB", true );
4954 const cata::optional<vpart_reference> autoclavepart = vp.part_with_feature( "AUTOCLAVE", true );
4955 const cata::optional<vpart_reference> cargo = vp.part_with_feature( "CARGO", true );
4956
4957 if( kpart ) { // we have a faucet, now to see what to drain
4958 itype_id ftype = itype_id::NULL_ID();
4959
4960 // Special case hotplates which draw battery power
4961 if( type == itype_hotplate ) {
4962 ftype = itype_battery;
4963 } else {
4964 ftype = type;
4965 }
4966
4967 // TODO: add a sane birthday arg
4969 tmp.charges = kpart->vehicle().drain( ftype, quantity );
4970 // TODO: Handle water poison when crafting starts respecting it
4971 quantity -= tmp.charges;
4972 ret.push_back( tmp );
4973
4974 if( quantity == 0 ) {
4975 return ret;
4976 }
4977 }
4978
4979 if( weldpart ) { // we have a weldrig, now to see what to drain
4980 itype_id ftype = itype_id::NULL_ID();
4981
4982 if( type == itype_welder ) {
4983 ftype = itype_battery;
4984 } else if( type == itype_soldering_iron ) {
4985 ftype = itype_battery;
4986 }
4987 // TODO: add a sane birthday arg
4989 tmp.charges = weldpart->vehicle().drain( ftype, quantity );
4990 quantity -= tmp.charges;
4991 ret.push_back( tmp );
4992
4993 if( quantity == 0 ) {
4994 return ret;
4995 }
4996 }
4997
4998 if( craftpart ) { // we have a craftrig, now to see what to drain
4999 itype_id ftype = itype_id::NULL_ID();
5000
5001 if( type == itype_press ) {
5002 ftype = itype_battery;
5003 } else if( type == itype_vac_sealer ) {
5004 ftype = itype_battery;
5005 } else if( type == itype_dehydrator ) {
5006 ftype = itype_battery;
5007 } else if( type == itype_food_processor ) {
5008 ftype = itype_battery;
5009 }
5010
5011 // TODO: add a sane birthday arg
5013 tmp.charges = craftpart->vehicle().drain( ftype, quantity );
5014 quantity -= tmp.charges;
5015 ret.push_back( tmp );
5016
5017 if( quantity == 0 ) {
5018 return ret;
5019 }
5020 }
5021
5022 if( forgepart ) { // we have a veh_forge, now to see what to drain
5023 itype_id ftype = itype_id::NULL_ID();
5024
5025 if( type == itype_forge ) {
5026 ftype = itype_battery;
5027 }
5028
5029 // TODO: add a sane birthday arg
5031 tmp.charges = forgepart->vehicle().drain( ftype, quantity );
5032 quantity -= tmp.charges;
5033 ret.push_back( tmp );
5034
5035 if( quantity == 0 ) {
5036 return ret;
5037 }
5038 }
5039
5040 if( kilnpart ) { // we have a veh_kiln, now to see what to drain
5041 itype_id ftype = itype_id::NULL_ID();
5042
5043 if( type == itype_kiln ) {
5044 ftype = itype_battery;
5045 }
5046
5047 // TODO: add a sane birthday arg
5049 tmp.charges = kilnpart->vehicle().drain( ftype, quantity );
5050 quantity -= tmp.charges;
5051 ret.push_back( tmp );
5052
5053 if( quantity == 0 ) {
5054 return ret;
5055 }
5056 }
5057
5058 if( chempart ) { // we have a chem_lab, now to see what to drain
5059 itype_id ftype = itype_id::NULL_ID();
5060
5061 if( type == itype_chemistry_set ) {
5062 ftype = itype_battery;
5063 } else if( type == itype_hotplate ) {
5064 ftype = itype_battery;
5065 } else if( type == itype_electrolysis_kit ) {
5066 ftype = itype_battery;
5067 }
5068
5069 // TODO: add a sane birthday arg
5071 tmp.charges = chempart->vehicle().drain( ftype, quantity );
5072 quantity -= tmp.charges;
5073 ret.push_back( tmp );
5074
5075 if( quantity == 0 ) {
5076 return ret;
5077 }
5078 }
5079
5080 if( autoclavepart ) { // we have an autoclave, now to see what to drain
5081 itype_id ftype = itype_id::NULL_ID();
5082
5083 if( type == itype_autoclave ) {
5084 ftype = itype_battery;
5085 }
5086
5087 // TODO: add a sane birthday arg
5089 tmp.charges = autoclavepart->vehicle().drain( ftype, quantity );
5090 quantity -= tmp.charges;
5091 ret.push_back( tmp );
5092
5093 if( quantity == 0 ) {
5094 return ret;
5095 }
5096 }
5097
5098 if( cargo ) {
5099 std::list<item> tmp =
5100 use_charges_from_stack( cargo->vehicle().get_items( cargo->part_index() ), type, quantity, p,
5101 filter );
5102 ret.splice( ret.end(), tmp );
5103 if( quantity <= 0 ) {
5104 return ret;
5105 }
5106 }
5107 }
5108
5109 return ret;
5110}
std::list< item > use_charges(const itype_id &fake_id, int &quantity)
Definition: basecamp.cpp:584
bool accessible_items(const tripoint &t) const
Check whether the player can access the items located .
Definition: map.cpp:6547
void reachable_flood_steps(std::vector< tripoint > &reachable_pts, const tripoint &f, int range, int cost_min, int cost_max) const
Populates a vector of points that are reachable within a number of steps from a point.
Definition: map.cpp:6276
static const itype_id itype_autoclave("autoclave")
static void use_charges_from_furn(const furn_t &f, const itype_id &type, int &quantity, map *m, const tripoint &p, std::list< item > &ret, const std::function< bool(const item &)> &filter)
Definition: map.cpp:4831
static const itype_id itype_soldering_iron("soldering_iron")
static const itype_id itype_chemistry_set("chemistry_set")
std::list< item > use_charges_from_stack(Stack stack, const itype_id &type, int &quantity, const tripoint &pos, const std::function< bool(const item &)> &filter)
Definition: map.cpp:4817
static const itype_id itype_press("press")
static const itype_id itype_hotplate("hotplate")
static const itype_id itype_electrolysis_kit("electrolysis_kit")
static const itype_id itype_food_processor("food_processor")
static const itype_id itype_forge("forge")
static const itype_id itype_battery("battery")
static const itype_id itype_dehydrator("dehydrator")
static const itype_id itype_kiln("kiln")
static const itype_id itype_welder("welder")
static const itype_id itype_vac_sealer("vac_sealer")

References accessible_items(), item::charges, furn(), has_furn(), i_at(), itype_autoclave, itype_battery, itype_chemistry_set, itype_dehydrator, itype_electrolysis_kit, itype_food_processor, itype_forge, itype_hotplate, itype_kiln, itype_press, itype_soldering_iron, itype_vac_sealer, itype_welder, string_id< itype >::NULL_ID(), optional_vpart_position::part_with_feature(), reachable_flood_steps(), cata::hash64_detail::ret, calendar::start_of_cataclysm, type, item::typeId(), basecamp::use_charges(), use_charges_from_furn(), use_charges_from_stack(), veh_at(), and water_from().

Referenced by basecamp_action_components::consume_components(), player::consume_items(), player::consume_tools(), and iexamine::use_furn_fake_item().

◆ valid_move()

bool map::valid_move ( const tripoint from,
const tripoint to,
bool  bash = false,
bool  flying = false,
bool  via_ramp = false 
) const

Returns true if a creature could walk from from to to in one step.

That is, if the tiles are adjacent and either on the same z-level or connected by stairs or (in case of flying monsters) open air with no floors.

Definition at line 1858 of file map.cpp.

1860{
1861 // Used to account for the fact that older versions of GCC can trip on the if statement here.
1862 assert( to.z > std::numeric_limits<int>::min() );
1863 // Note: no need to check inbounds here, because maptile_at will do that
1864 // If oob tile is supplied, the maptile_at will be an unpassable "null" tile
1865 if( std::abs( from.x - to.x ) > 1 || std::abs( from.y - to.y ) > 1 ||
1866 std::abs( from.z - to.z ) > 1 ) {
1867 return false;
1868 }
1869
1870 if( from.z == to.z ) {
1871 // But here we need to, to prevent bashing critters
1872 return passable( to ) || ( bash && inbounds( to ) );
1873 } else if( !zlevels ) {
1874 return false;
1875 }
1876
1877 const bool going_up = from.z < to.z;
1878
1879 const tripoint &up_p = going_up ? to : from;
1880 const tripoint &down_p = going_up ? from : to;
1881
1882 const maptile up = maptile_at( up_p );
1883 const ter_t &up_ter = up.get_ter_t();
1884 if( up_ter.id.is_null() ) {
1885 return false;
1886 }
1887 // Checking for ledge is a workaround for the case when mapgen doesn't
1888 // actually make a valid ledge drop location with zlevels on, this forces
1889 // at least one zlevel drop and if down_ter is impassible it's probably
1890 // inside a wall, we could workaround that further but it's unnecessary.
1891 const bool up_is_ledge = tr_at( up_p ).loadid == tr_ledge;
1892
1893 if( up_ter.movecost == 0 ) {
1894 // Unpassable tile
1895 return false;
1896 }
1897
1898 const maptile down = maptile_at( down_p );
1899 const ter_t &down_ter = down.get_ter_t();
1900 if( down_ter.id.is_null() ) {
1901 return false;
1902 }
1903
1904 if( !up_is_ledge && down_ter.movecost == 0 ) {
1905 // Unpassable tile
1906 return false;
1907 }
1908
1909 if( !up_ter.has_flag( TFLAG_NO_FLOOR ) && !up_ter.has_flag( TFLAG_GOES_DOWN ) && !up_is_ledge &&
1910 !via_ramp ) {
1911 // Can't move from up to down
1912 if( std::abs( from.x - to.x ) == 1 || std::abs( from.y - to.y ) == 1 ) {
1913 // Break the move into two - vertical then horizontal
1914 tripoint midpoint( down_p.xy(), up_p.z );
1915 return valid_move( down_p, midpoint, bash, flying, via_ramp ) &&
1916 valid_move( midpoint, up_p, bash, flying, via_ramp );
1917 }
1918 return false;
1919 }
1920
1921 if( !flying && !down_ter.has_flag( TFLAG_GOES_UP ) && !down_ter.has_flag( TFLAG_RAMP ) &&
1922 !up_is_ledge && !via_ramp ) {
1923 // Can't safely reach the lower tile
1924 return false;
1925 }
1926
1927 if( bash ) {
1928 return true;
1929 }
1930
1931 int part_up;
1932 const vehicle *veh_up = veh_at_internal( up_p, part_up );
1933 if( veh_up != nullptr ) {
1934 // TODO: Hatches below the vehicle, passable frames
1935 return false;
1936 }
1937
1938 int part_down;
1939 const vehicle *veh_down = veh_at_internal( down_p, part_down );
1940 if( veh_down != nullptr && veh_down->roof_at_part( part_down ) >= 0 ) {
1941 // TODO: OPEN (and only open) hatches from above
1942 return false;
1943 }
1944
1945 // Currently only furniture can block movement if everything else is OK
1946 // TODO: Vehicles with boards in the given spot
1947 return up.get_furn_t().movecost >= 0;
1948}
coords::coord_point< Point, Origin, Scale > midpoint(const coords::coord_point< Point, Origin, Scale > &loc1, const coords::coord_point< Point, Origin, Scale > &loc2)
Definition: coordinates.h:562
trap_id loadid
Definition: trap.h:88

References bash(), map_data_common_t::has_flag(), ter_t::id, inbounds(), string_id< T >::is_null(), trap::loadid, maptile_at(), midpoint(), map_data_common_t::movecost, passable(), vehicle::roof_at_part(), TFLAG_GOES_DOWN, TFLAG_GOES_UP, TFLAG_NO_FLOOR, TFLAG_RAMP, tr_at(), tr_ledge, valid_move(), veh_at_internal(), tripoint::x, tripoint::xy(), tripoint::y, tripoint::z, and zlevels.

Referenced by map_funcs::climbing_cost(), combined_movecost(), explosion_handler::do_blast(), draw_critter_internal(), has_floor_or_support(), scent_map::inbounds(), iexamine::ledge(), monster::move(), process_fields_in_submap(), route(), spread_gas(), monster::stumble(), and valid_move().

◆ veh_at()

optional_vpart_position map::veh_at ( const tripoint p) const

Checks if tile is occupied by vehicle and by which part.

Parameters
pTile to check for vehicle

Definition at line 1006 of file map.cpp.

1007{
1008 if( !inbounds( p ) || !const_cast<map *>( this )->get_cache( p.z ).veh_in_active_range ) {
1010 }
1011
1012 int part_num = 1;
1013 vehicle *const veh = const_cast<map *>( this )->veh_at_internal( p, part_num );
1014 if( !veh ) {
1016 }
1017 return optional_vpart_position( vpart_position( *veh, part_num ) );
1018
1019}
static constexpr nullopt_t nullopt
Definition: optional.h:22

References get_cache(), inbounds(), cata::nullopt, veh_at_internal(), level_cache::veh_in_active_range, and tripoint::z.

Referenced by Character::activate_bionic(), activity_on_turn_move_loot(), zone_manager::add(), add_splatter(), add_vehicle_to_map(), apply_faction_ownership(), are_requirements_nearby(), Creature::auto_find_hostile_target(), Character::base_comfort_value(), bash(), bash_rating(), bash_vehicle(), board_vehicle(), build_seen_cache(), VehicleSpawnFunction::builtin_parkinglot(), Character::burn_fuel(), can_do_activity_there(), can_examine_at(), can_interact_at(), can_pickup_at(), can_put_items(), can_use_bipod(), check_art_charge_req(), vehicle::autodrive_controller::check_drivable(), player::check_eligible_containers_for_crafting(), construct::check_empty(), vehicle::check_heli_ascend(), vehicle::check_heli_descend(), climb_difficulty(), doors::close_door(), veh_interact::complete_vehicle(), game::control_vehicle(), coverage(), creature_in_field(), crush(), cycle_action(), debug_menu::debug(), deregister_vehicle_zone(), activity_handlers::repair_activity_hack::anonymous_namespace{activity_handlers.cpp}::discharge_real_power_source(), explosion_handler::do_blast(), game::do_turn(), editmap_hilight::draw(), editmap::draw_main_ui_overlay(), drop_vehicle(), game::examine(), npc::execute_action(), ranged::expected_coverage(), fetch_activity(), activity_handlers::fill_liquid_do_turn(), find_auto_consume(), npc::find_item(), Character::find_remote_fuel(), fire(), game::fling_creature(), Character::floor_bedding_warmth(), Character::floor_item_warmth(), game::forced_door_closing(), inventory::form_from_map(), generic_multi_activity_check_requirement(), avatar::get_book_reader(), game::get_dangerous_tile(), player::get_eligible_containers_for_crafting(), activity_handlers::repair_activity_hack::anonymous_namespace{activity_handlers.cpp}::get_fake_tool(), liquid_handler::get_liquid_target(), overmap_ui::get_overmap_path_to(), game::get_veh_dir_indicator_location(), grab(), game::grabbed_furn_move(), game::grabbed_veh_move(), ranged::gunmode_checks_common(), ranged::gunmode_checks_weapon(), handbrake(), game::handle_action(), handle_action_menu(), Character::has_alarm_clock(), has_nearby_chair(), has_nearby_table(), jmapgen_setmap::has_vehicle_collision(), mapgen_function_json_base::has_vehicle_collision(), jmapgen_alternativly< PieceType >::has_vehicle_collision(), jmapgen_sign::has_vehicle_collision(), jmapgen_vending_machine::has_vehicle_collision(), jmapgen_toilet::has_vehicle_collision(), jmapgen_gaspump::has_vehicle_collision(), jmapgen_vehicle::has_vehicle_collision(), jmapgen_trap::has_vehicle_collision(), jmapgen_furniture::has_vehicle_collision(), jmapgen_terrain::has_vehicle_collision(), jmapgen_computer::has_vehicle_collision(), jmapgen_sealed_item::has_vehicle_collision(), Character::has_watch(), haul(), Character::in_climate_control(), advanced_inv_area::init(), is_bashable(), weather::is_sheltered(), Character::is_snuggling(), game::load(), make_active(), mine_activity(), monster_in_field(), mop_spills(), avatar_action::move(), move_cost(), npc::move_to(), move_vehicle(), game::moving_vehicle_dismount(), MapExtras::mx_helicopter(), obstacle_coverage(), obstacle_name(), open(), open_door(), vehicle::part_collision(), Character::passive_power_gen(), liquid_handler::perform_liquid_transfer(), game::phasing_move(), npc::pick_up_item(), game::place_player(), player_in_field(), pldrive(), game::print_all_tile_info(), projectile_attack(), vehicle_part::properties_to_item(), put_into_vehicle_or_drop(), game::remoteveh(), DefaultRemovePartHandler::removed(), zone_manager::revert_vzones(), iexamine::rubble(), conditional_t< T >::set_is_driving(), set_item_map_or_vehicle(), shoot(), explosion_handler::shrapnel(), iexamine::shrub_wildveggies(), spell_effect::spawn_summoned_vehicle(), autodrive_activity_actor::start(), activity_handlers::start_engines_finish(), supports_above(), game::swap_critters(), avatar_action::swim(), tidy_activity(), unboard_vehicle(), Character::update_bodytemp(), editmap::update_view_with_help(), deploy_furn_actor::use(), deploy_tent_actor::use(), use_amount_square(), use_charges(), game::validate_linked_vehicles(), vehicle_activity(), activity_handlers::vehicle_finish(), vehicle_selector::vehicle_selector(), wait(), game::walk_move(), avatar_action::wield(), and workbench_crafting_speed_multiplier().

◆ veh_at_internal() [1/2]

vehicle * map::veh_at_internal ( const tripoint p,
int &  part_num 
)

Definition at line 1041 of file map.cpp.

1042{
1043 return const_cast<vehicle *>( const_cast<const map *>( this )->veh_at_internal( p, part_num ) );
1044}

References veh_at_internal().

Referenced by draw_from_above(), draw_maptile(), process_fields_in_submap(), route(), update_pathfinding_cache(), valid_move(), veh_at(), and veh_at_internal().

◆ veh_at_internal() [2/2]

const vehicle * map::veh_at_internal ( const tripoint p,
int &  part_num 
) const

Definition at line 1021 of file map.cpp.

1022{
1023 // This function is called A LOT. Move as much out of here as possible.
1024 const level_cache &ch = get_cache( p.z );
1025 if( !ch.veh_in_active_range || !ch.veh_exists_at[p.x][p.y] ) {
1026 part_num = -1;
1027 return nullptr; // Clear cache indicates no vehicle. This should optimize a great deal.
1028 }
1029
1030 const auto it = ch.veh_cached_parts.find( p );
1031 if( it != ch.veh_cached_parts.end() ) {
1032 part_num = it->second.second;
1033 return it->second.first;
1034 }
1035
1036 debugmsg( "vehicle part cache indicated vehicle not found: %d %d %d", p.x, p.y, p.z );
1037 part_num = -1;
1038 return nullptr;
1039}

References debugmsg, get_cache(), level_cache::veh_cached_parts, level_cache::veh_exists_at, level_cache::veh_in_active_range, tripoint::x, tripoint::y, and tripoint::z.

◆ vehicle_vehicle_collision()

float map::vehicle_vehicle_collision ( vehicle veh,
vehicle veh2,
const std::vector< veh_collision > &  collisions 
)

Definition at line 759 of file map.cpp.

761{
762 if( &veh == &veh2 ) {
763 debugmsg( "Vehicle %s collided with itself", veh.name );
764 return 0.0f;
765 }
766
767 // Effects of colliding with another vehicle:
768 // transfers of momentum, skidding,
769 // parts are damaged/broken on both sides,
770 // remaining times are normalized
771 const veh_collision &c = collisions[0];
772 add_msg( m_bad, _( "The %1$s's %2$s collides with %3$s's %4$s." ),
773 veh.name, veh.part_info( c.part ).name(),
774 veh2.name, veh2.part_info( c.target_part ).name() );
775
776 const bool vertical = veh.sm_pos.z != veh2.sm_pos.z;
777
778 // Used to calculate the epicenter of the collision.
779 point epicenter1;
780 point epicenter2;
781
782 float dmg;
783 // Vertical collisions will be simpler for a while (1D)
784 if( !vertical ) {
785 // For reference, a cargo truck weighs ~25300, a bicycle 690,
786 // and 38mph is 3800 'velocity'
787 rl_vec2d velo_veh1 = veh.velo_vec();
788 rl_vec2d velo_veh2 = veh2.velo_vec();
789 const float m1 = to_kilogram( veh.total_mass() );
790 const float m2 = to_kilogram( veh2.total_mass() );
791 //Energy of vehicle1 and vehicle2 before collision
792 float E = 0.5 * m1 * velo_veh1.magnitude() * velo_veh1.magnitude() +
793 0.5 * m2 * velo_veh2.magnitude() * velo_veh2.magnitude();
794
795 // Collision_axis
796 point cof1 = veh .rotated_center_of_mass();
797 point cof2 = veh2.rotated_center_of_mass();
798 int &x_cof1 = cof1.x;
799 int &y_cof1 = cof1.y;
800 int &x_cof2 = cof2.x;
801 int &y_cof2 = cof2.y;
802 rl_vec2d collision_axis_y;
803
804 collision_axis_y.x = ( veh.global_pos3().x + x_cof1 ) - ( veh2.global_pos3().x + x_cof2 );
805 collision_axis_y.y = ( veh.global_pos3().y + y_cof1 ) - ( veh2.global_pos3().y + y_cof2 );
806 collision_axis_y = collision_axis_y.normalized();
807 rl_vec2d collision_axis_x = collision_axis_y.rotated( M_PI / 2 );
808 // imp? & delta? & final? reworked:
809 // newvel1 =( vel1 * ( mass1 - mass2 ) + ( 2 * mass2 * vel2 ) ) / ( mass1 + mass2 )
810 // as per http://en.wikipedia.org/wiki/Elastic_collision
811 //velocity of veh1 before collision in the direction of collision_axis_y
812 float vel1_y = collision_axis_y.dot_product( velo_veh1 );
813 float vel1_x = collision_axis_x.dot_product( velo_veh1 );
814 //velocity of veh2 before collision in the direction of collision_axis_y
815 float vel2_y = collision_axis_y.dot_product( velo_veh2 );
816 float vel2_x = collision_axis_x.dot_product( velo_veh2 );
817 // e = 0 -> inelastic collision
818 // e = 1 -> elastic collision
819 float e = get_collision_factor( vel1_y / 100 - vel2_y / 100 );
820
821 // Velocity after collision
822 // vel1_x_a = vel1_x, because in x-direction we have no transmission of force
823 float vel1_x_a = vel1_x;
824 float vel2_x_a = vel2_x;
825 // Transmission of force only in direction of collision_axix_y
826 // Equation: partially elastic collision
827 float vel1_y_a = ( m2 * vel2_y * ( 1 + e ) + vel1_y * ( m1 - m2 * e ) ) / ( m1 + m2 );
828 float vel2_y_a = ( m1 * vel1_y * ( 1 + e ) + vel2_y * ( m2 - m1 * e ) ) / ( m1 + m2 );
829 // Add both components; Note: collision_axis is normalized
830 rl_vec2d final1 = collision_axis_y * vel1_y_a + collision_axis_x * vel1_x_a;
831 rl_vec2d final2 = collision_axis_y * vel2_y_a + collision_axis_x * vel2_x_a;
832
833 veh.move.init( final1.as_point() );
834 if( final1.dot_product( veh.face_vec() ) < 0 ) {
835 // Car is being pushed backwards. Make it move backwards
836 veh.velocity = -final1.magnitude();
837 } else {
838 veh.velocity = final1.magnitude();
839 }
840
841 veh2.move.init( final2.as_point() );
842 if( final2.dot_product( veh2.face_vec() ) < 0 ) {
843 // Car is being pushed backwards. Make it move backwards
844 veh2.velocity = -final2.magnitude();
845 } else {
846 veh2.velocity = final2.magnitude();
847 }
848
849 //give veh2 the initiative to proceed next before veh1
850 float avg_of_turn = ( veh2.of_turn + veh.of_turn ) / 2;
851 if( avg_of_turn < .1f ) {
852 avg_of_turn = .1f;
853 }
854
855 veh.of_turn = avg_of_turn * .9;
856 veh2.of_turn = avg_of_turn * 1.1;
857
858 //Energy after collision
859 float E_a = 0.5 * m1 * final1.magnitude() * final1.magnitude() +
860 0.5 * m2 * final2.magnitude() * final2.magnitude();
861 float d_E = E - E_a; //Lost energy at collision -> deformation energy
862 dmg = std::abs( d_E / 1000 / 2000 ); //adjust to balance damage
863 } else {
864 const float m1 = to_kilogram( veh.total_mass() );
865 // Collision is perfectly inelastic for simplicity
866 // Assume veh2 is standing still
867 dmg = std::abs( veh.vertical_velocity / 100 ) * m1 / 10;
868 veh.vertical_velocity = 0;
869 }
870
871 float dmg_veh1 = dmg * 0.5;
872 float dmg_veh2 = dmg * 0.5;
873
874 int coll_parts_cnt = 0; //quantity of colliding parts between veh1 and veh2
875 for( const auto &veh_veh_coll : collisions ) {
876 if( &veh2 == static_cast<vehicle *>( veh_veh_coll.target ) ) {
877 coll_parts_cnt++;
878 }
879 }
880
881 const float dmg1_part = dmg_veh1 / coll_parts_cnt;
882 const float dmg2_part = dmg_veh2 / coll_parts_cnt;
883
884 //damage colliding parts (only veh1 and veh2 parts)
885 for( const auto &veh_veh_coll : collisions ) {
886 if( &veh2 != static_cast<vehicle *>( veh_veh_coll.target ) ) {
887 continue;
888 }
889
890 int parm1 = veh.part_with_feature( veh_veh_coll.part, VPFLAG_ARMOR, true );
891 if( parm1 < 0 ) {
892 parm1 = veh_veh_coll.part;
893 }
894 int parm2 = veh2.part_with_feature( veh_veh_coll.target_part, VPFLAG_ARMOR, true );
895 if( parm2 < 0 ) {
896 parm2 = veh_veh_coll.target_part;
897 }
898
899 epicenter1 += veh.part( parm1 ).mount;
900 veh.damage( parm1, dmg1_part, DT_BASH );
901
902 epicenter2 += veh2.part( parm2 ).mount;
903 veh2.damage( parm2, dmg2_part, DT_BASH );
904 }
905
906 epicenter2.x /= coll_parts_cnt;
907 epicenter2.y /= coll_parts_cnt;
908
909 if( dmg2_part > 100 ) {
910 // Shake vehicle because of collision
911 veh2.damage_all( dmg2_part / 2, dmg2_part, DT_BASH, epicenter2 );
912 }
913
914 if( dmg_veh1 > 800 ) {
915 veh.skidding = true;
916 }
917
918 if( dmg_veh2 > 800 ) {
919 veh2.skidding = true;
920 }
921
922 // Return the impulse of the collision
923 return dmg_veh1;
924}
rl_vec2d face_vec() const
const point & rotated_center_of_mass() const
Definition: vehicle.cpp:3327
rl_vec2d velo_vec() const
float of_turn
Definition: vehicle.h:1931
std::string name() const
Translated name of a part.
Definition: veh_type.cpp:699
#define M_PI
Definition: math_defines.h:21
point as_point() const
Definition: line.cpp:686
rl_vec2d rotated(float angle) const
Definition: line.cpp:647
float magnitude() const
Definition: line.cpp:610
rl_vec2d normalized() const
Definition: line.cpp:620
float y
Definition: point_float.h:13
float x
Definition: point_float.h:12
float dot_product(const rl_vec2d &v) const
Definition: line.cpp:664
@ VPFLAG_ARMOR
Definition: veh_type.h:32
float get_collision_factor(float delta_v)

References _, add_msg(), rl_vec2d::as_point(), c, vehicle::damage(), vehicle::damage_all(), debugmsg, rl_vec2d::dot_product(), DT_BASH, vehicle::face_vec(), get_collision_factor(), vehicle::global_pos3(), tileray::init(), m_bad, M_PI, rl_vec2d::magnitude(), vehicle_part::mount, vehicle::move, vpart_info::name(), vehicle::name, rl_vec2d::normalized(), vehicle::of_turn, vehicle::part(), vehicle::part_info(), vehicle::part_with_feature(), rl_vec2d::rotated(), vehicle::rotated_center_of_mass(), vehicle::skidding, vehicle::sm_pos, units::to_kilogram(), vehicle::total_mass(), vehicle::velo_vec(), vehicle::velocity, vehicle::vertical_velocity, VPFLAG_ARMOR, point::x, tripoint::x, rl_vec2d::x, point::y, tripoint::y, rl_vec2d::y, and tripoint::z.

Referenced by move_vehicle().

◆ vehicle_wheel_traction()

float map::vehicle_wheel_traction ( const vehicle veh,
bool  ignore_movement_modifiers = false 
) const

Definition at line 1567 of file vehicle_move.cpp.

1569{
1570 if( veh.is_in_water( true ) ) {
1571 return veh.can_float() ? 1.0f : -1.0f;
1572 }
1573 if( veh.is_in_water() && veh.is_watercraft() && veh.can_float() ) {
1574 return 1.0f;
1575 }
1576
1577 const auto &wheel_indices = veh.wheelcache;
1578 int num_wheels = wheel_indices.size();
1579 if( num_wheels == 0 ) {
1580 // TODO: Assume it is digging in dirt
1581 // TODO: Return something that could be reused for dragging
1582 return 0.0f;
1583 }
1584
1585 float traction_wheel_area = 0.0f;
1586
1587 if( vehicle_movement::is_on_rails( *this, veh ) ) {
1588 // Vehicles on rails are considered to have all of their wheels on rails
1589 for( int p : veh.rail_wheelcache ) {
1590 traction_wheel_area += veh.cpart( p ).wheel_area();
1591 }
1592 return traction_wheel_area;
1593 }
1594
1595 for( int p : wheel_indices ) {
1596 const tripoint &pp = veh.global_part_pos3( p );
1597 const int wheel_area = veh.cpart( p ).wheel_area();
1598
1599 const auto &tr = ter( pp ).obj();
1600 // Deep water and air
1601 if( tr.has_flag( TFLAG_DEEP_WATER ) || tr.has_flag( TFLAG_NO_FLOOR ) ) {
1602 // No traction from wheel in water or air
1603 continue;
1604 }
1605
1606 int move_mod = move_cost_ter_furn( pp );
1607 if( move_mod == 0 ) {
1608 // Vehicle locked in wall
1609 // Shouldn't happen, but does
1610 return 0.0f;
1611 }
1612
1613 for( const auto &terrain_mod : veh.part_info( p ).wheel_terrain_mod() ) {
1614 if( !tr.has_flag( terrain_mod.first ) ) {
1615 move_mod += terrain_mod.second;
1616 break;
1617 }
1618 }
1619
1620 // Ignore the movement modifier if needed.
1621 if( ignore_movement_modifiers ) {
1622 move_mod = 2;
1623 }
1624
1625 traction_wheel_area += 2.0 * wheel_area / move_mod;
1626 }
1627
1628 return traction_wheel_area;
1629}
bool is_watercraft() const
Definition: vehicle.cpp:4217
std::vector< int > rail_wheelcache
Definition: vehicle.h:1820
bool can_float() const
can_float does the vehicle have freeboard or does it overflow with water?
Definition: vehicle.cpp:4154
std::vector< std::pair< std::string, int > > wheel_terrain_mod() const
Definition: veh_type.cpp:897
bool is_on_rails(const map &m, const vehicle &veh)
Returns whether the vehicle is currently on rails.

References vehicle::can_float(), vehicle::cpart(), vehicle::global_part_pos3(), vehicle::is_in_water(), vehicle_movement::is_on_rails(), vehicle::is_watercraft(), move_cost_ter_furn(), int_id< T >::obj(), vehicle::part_info(), vehicle::rail_wheelcache, ter(), TFLAG_DEEP_WATER, TFLAG_NO_FLOOR, vehicle_part::wheel_area(), vpart_info::wheel_terrain_mod(), and vehicle::wheelcache.

Referenced by vehicle::act_on_map(), and move_vehicle().

◆ vehmove()

void map::vehmove ( )

Definition at line 412 of file map.cpp.

413{
414 // give vehicles movement points
415 VehicleList vehicle_list;
416 int minz = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
417 int maxz = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
418 for( int zlev = minz; zlev <= maxz; ++zlev ) {
419 level_cache &cache = get_cache( zlev );
420 for( vehicle *veh : cache.vehicle_list ) {
421 veh->gain_moves();
422 veh->slow_leak();
424 w.v = veh;
425 vehicle_list.push_back( w );
426 }
427 }
428
429 // 15 equals 3 >50mph vehicles, or up to 15 slow (1 square move) ones
430 // But 15 is too low for V12 death-bikes, let's put 100 here
431 for( int count = 0; count < 100; count++ ) {
432 if( !vehproceed( vehicle_list ) ) {
433 break;
434 }
435 }
436 // Process item removal on the vehicles that were modified this turn.
437 // Use a copy because part_removal_cleanup can modify the container.
438 auto temp = dirty_vehicle_list;
439 for( const auto &elem : temp ) {
440 auto same_ptr = [ elem ]( const struct wrapped_vehicle & tgt ) {
441 return elem == tgt.v;
442 };
443 if( std::find_if( vehicle_list.begin(), vehicle_list.end(), same_ptr ) !=
444 vehicle_list.end() ) {
445 elem->part_removal_cleanup();
446 }
447 }
448 dirty_vehicle_list.clear();
449 // The bool tracks whether the vehicles is on the map or not.
450 std::map<vehicle *, bool> connected_vehicles;
451 for( int zlev = minz; zlev <= maxz; ++zlev ) {
452 level_cache &cache = get_cache( zlev );
453 vehicle::enumerate_vehicles( connected_vehicles, cache.vehicle_list );
454 }
455 for( std::pair<vehicle *const, bool> &veh_pair : connected_vehicles ) {
456 veh_pair.first->idle( veh_pair.second );
457 }
458}
bool vehproceed(VehicleList &vehicle_list)
Definition: map.cpp:460
static void enumerate_vehicles(std::map< vehicle *, bool > &connected_vehicles, const std::set< vehicle * > &vehicle_list)
Use grid traversal to enumerate all connected vehicles.
Definition: vehicle.cpp:4927
void slow_leak()
Definition: vehicle.cpp:5294
void gain_moves()
Definition: vehicle.cpp:5541

References abs_sub, detail::count(), dirty_vehicle_list, vehicle::enumerate_vehicles(), vehicle::gain_moves(), get_cache(), OVERMAP_DEPTH, OVERMAP_HEIGHT, vehicle::slow_leak(), wrapped_vehicle::v, level_cache::vehicle_list, vehproceed(), tripoint::z, and zlevels.

Referenced by game::do_turn().

◆ vehproceed()

bool map::vehproceed ( VehicleList vehicle_list)

Definition at line 460 of file map.cpp.

461{
462 wrapped_vehicle *cur_veh = nullptr;
463 float max_of_turn = 0;
464 // First horizontal movement
465 for( wrapped_vehicle &vehs_v : vehicle_list ) {
466 if( vehs_v.v->of_turn > max_of_turn ) {
467 cur_veh = &vehs_v;
468 max_of_turn = cur_veh->v->of_turn;
469 }
470 }
471
472 // Then vertical-only movement
473 if( cur_veh == nullptr ) {
474 for( wrapped_vehicle &vehs_v : vehicle_list ) {
475 if( vehs_v.v->is_falling || ( vehs_v.v->is_rotorcraft() && vehs_v.v->get_z_change() != 0 ) ) {
476 cur_veh = &vehs_v;
477 break;
478 }
479 }
480 }
481
482 if( cur_veh == nullptr ) {
483 return false;
484 }
485
486 cur_veh->v = cur_veh->v->act_on_map();
487 if( cur_veh->v == nullptr ) {
488 vehicle_list = get_vehicles();
489 }
490
491 // confirm that veh_in_active_range is still correct for each z-level
492 int minz = zlevels ? -OVERMAP_DEPTH : abs_sub.z;
493 int maxz = zlevels ? OVERMAP_HEIGHT : abs_sub.z;
494 for( int zlev = minz; zlev <= maxz; ++zlev ) {
495 level_cache &cache = get_cache( zlev );
496
497 // Check if any vehicles exist in the active range for this z-level
499 std::any_of( std::begin( cache.veh_exists_at ),
500 std::end( cache.veh_exists_at ), []( const auto & row ) {
501 return std::any_of( std::begin( row ), std::end( row ), []( bool veh_exists ) {
502 return veh_exists;
503 } );
504 } );
505 }
506
507 return true;
508}
vehicle * act_on_map()

References abs_sub, vehicle::act_on_map(), get_cache(), get_vehicles(), vehicle::of_turn, OVERMAP_DEPTH, OVERMAP_HEIGHT, wrapped_vehicle::v, level_cache::veh_exists_at, level_cache::veh_in_active_range, tripoint::z, and zlevels.

Referenced by vehmove().

◆ vertical_shift()

void map::vertical_shift ( int  newz)

Moves the map vertically to (not by!) newz.

Does not actually shift anything, only forces cache updates. In the future, it will either actually shift the map or it will get removed after 3D migration is complete.

Definition at line 6893 of file map.cpp.

6894{
6895 if( !zlevels ) {
6896 debugmsg( "Called map::vertical_shift in a non-z-level world" );
6897 return;
6898 }
6899
6900 if( newz < -OVERMAP_DEPTH || newz > OVERMAP_HEIGHT ) {
6901 debugmsg( "Tried to get z-level %d outside allowed range of %d-%d",
6902 newz, -OVERMAP_DEPTH, OVERMAP_HEIGHT );
6903 return;
6904 }
6905
6906 tripoint trp = get_abs_sub();
6907 set_abs_sub( tripoint( trp.xy(), newz ) );
6908
6909 // TODO: Remove the function when it's safe
6910 return;
6911}

References debugmsg, get_abs_sub(), OVERMAP_DEPTH, OVERMAP_HEIGHT, set_abs_sub(), tripoint::xy(), and zlevels.

Referenced by game::vertical_shift().

◆ water_from()

item map::water_from ( const tripoint p)

Definition at line 4367 of file map.cpp.

4368{
4369 if( has_flag( "SALT_WATER", p ) ) {
4371 }
4372
4373 const ter_id terrain_id = ter( p );
4374 if( terrain_id == t_sewage ) {
4376 ret.poison = rng( 1, 7 );
4377 return ret;
4378 }
4379
4381 // iexamine::water_source requires a valid liquid from this function.
4382 if( terrain_id.obj().examine == &iexamine::water_source ) {
4383 int poison_chance = 0;
4384 if( terrain_id.obj().has_flag( TFLAG_DEEP_WATER ) ) {
4385 if( terrain_id.obj().has_flag( TFLAG_CURRENT ) ) {
4386 poison_chance = 20;
4387 } else {
4388 poison_chance = 4;
4389 }
4390 } else {
4391 if( terrain_id.obj().has_flag( TFLAG_CURRENT ) ) {
4392 poison_chance = 10;
4393 } else {
4394 poison_chance = 3;
4395 }
4396 }
4397 if( one_in( poison_chance ) ) {
4398 ret.poison = rng( 1, 4 );
4399 }
4400 return ret;
4401 }
4402 if( furn( p ).obj().examine == &iexamine::water_source ) {
4403 return ret;
4404 }
4405 return item();
4406}
static const int INFINITE_CHARGES
Definition: item.h:2154
void examine(Character &p, const tripoint &pos)
Calls the examine function of furniture or terrain at given tile, for given character.
Definition: map.cpp:1617
@ TFLAG_CURRENT
Definition: mapdata.h:302
void water_source(player &p, const tripoint &examp)
Definition: iexamine.cpp:3846

References examine(), map_data_common_t::examine, furn(), map_data_common_t::has_flag(), has_flag(), item::INFINITE_CHARGES, int_id< T >::obj(), one_in(), cata::hash64_detail::ret, rng(), calendar::start_of_cataclysm, t_sewage, ter(), TFLAG_CURRENT, TFLAG_DEEP_WATER, and iexamine::water_source().

Referenced by inventory::form_from_map(), use_amount_square(), use_charges(), and iexamine::water_source().

Friends And Related Function Documentation

◆ editmap

friend class editmap
friend

Definition at line 390 of file map.h.

◆ visitable< map_cursor >

friend class visitable< map_cursor >
friend

Definition at line 390 of file map.h.

Member Data Documentation

◆ abs_sub

tripoint map::abs_sub
protected

Absolute coordinates of first submap (get_submap_at(0,0)) This is in submap coordinates (see overmapbuffer for explanation).

It is set upon:

  • loading submap at grid[0],
  • generating submaps (generate)
  • shifting the map with shift

Definition at line 1835 of file map.h.

Referenced by add_item(), add_item_or_charges(), add_vehicle(), adjust_radiation(), apply_faction_ownership(), bash_rating(), bash_resistance(), bash_strength(), build_floor_caches(), can_put_items(), can_put_items_ter_furn(), check_submap_active_item_consistency(), clear_vehicle_cache(), create_anomaly(), decay_fields_and_scent(), detach_vehicle(), draw_fill_background(), draw_lab(), draw_mine(), draw_temple(), draw_triffid(), features(), furn(), furn_set(), furnname(), generate(), get_abs_sub(), get_active_items_in_radius(), get_nonant(), get_submap_at(), get_vehicles(), getabs(), getlocal(), has_flag(), has_flag_furn(), has_flag_ter(), has_flag_ter_or_furn(), has_furn(), i_at(), i_clear(), i_rem(), is_bashable(), is_bashable_furn(), is_bashable_ter(), is_bashable_ter_furn(), is_divable(), is_outside(), is_water_shallow_current(), loadn(), make_active(), move_cost(), move_cost_ter_furn(), name(), passable(), place_items(), place_npc(), place_vending(), points_on_zlevel(), process_fields(), process_fields_in_submap(), process_items(), reset_vehicle_cache(), rotate(), save(), saven(), scent_blockers(), set_abs_sub(), set_radiation(), set_temperature(), spawn_an_item(), spawn_item(), spawn_items(), spawn_monsters(), spawn_monsters_submap(), spawn_monsters_submap_group(), ter(), ter_set(), tername(), update_submap_active_item_status(), update_visibility_cache(), vehmove(), and vehproceed().

◆ caches

std::array< std::unique_ptr<level_cache>, OVERMAP_LAYERS > map::caches
private

Holds caches for visibility, light, transparency and vehicles.

Definition at line 2007 of file map.h.

Referenced by access_cache(), get_cache(), get_cache_ref(), and map().

◆ dirty_vehicle_list

◆ field_furn_locs

std::vector<tripoint> map::field_furn_locs
private

Vector of tripoints containing active field-emitting furniture.

Definition at line 2003 of file map.h.

Referenced by actualize(), furn_set(), get_furn_field_locations(), load(), and shift_traps().

◆ grid

std::vector<submap *> map::grid
private

The list of currently loaded submaps.

The size of this should not be changed. After calling load or generate, it should only contain non-null pointers. Use getsubmap or setsubmap to access it.

Definition at line 1992 of file map.h.

Referenced by actualize(), add_roofs(), clear_spawns(), clear_traps(), editmap::cleartmpmap(), displace_vehicle(), getsubmap(), loadn(), map(), saven(), and setsubmap().

◆ last_full_vehicle_list

VehicleList map::last_full_vehicle_list
private

Vehicle list doesn't change often, but is pretty expensive.

Definition at line 2023 of file map.h.

Referenced by get_vehicles().

◆ last_full_vehicle_list_dirty

bool map::last_full_vehicle_list_dirty = true
private

◆ max_populated_zlev

cata::optional<std::pair<tripoint, int> > map::max_populated_zlev = cata::nullopt
private

Definition at line 2037 of file map.h.

Referenced by calc_max_populated_zlev(), and invalidate_max_populated_zlev().

◆ my_MAPSIZE

◆ pathfinding_caches

std::array< std::unique_ptr<pathfinding_cache>, OVERMAP_LAYERS > map::pathfinding_caches
mutableprivate

Definition at line 2009 of file map.h.

Referenced by get_pathfinding_cache(), get_pathfinding_cache_ref(), and map().

◆ skew_vision_cache

lru_cache<point, char> map::skew_vision_cache
mutableprivate

Cache of coordinate pairs recently checked for visibility.

Definition at line 2018 of file map.h.

Referenced by build_map_cache(), and sees().

◆ submaps_with_active_items

std::set<tripoint> map::submaps_with_active_items
private

◆ support_cache_dirty

std::set<tripoint> map::support_cache_dirty
private

Definition at line 1549 of file map.h.

Referenced by process_falling(), shift(), support_dirty(), and ter_set().

◆ traplocs

std::vector< std::vector<tripoint> > map::traplocs
private

This vector contains an entry for each trap type, it has therefor the same size as the traplist vector.

Each entry contains a list of all point on the map that contain a trap of that type. The first entry however is always empty as it denotes the tr_null trap.

Definition at line 1999 of file map.h.

Referenced by actualize(), clear_traps(), load(), map(), remove_trap(), shift_traps(), ter_set(), trap_locations(), and trap_set().

◆ visibility_variables_cache

visibility_variables map::visibility_variables_cache
private

Definition at line 2033 of file map.h.

Referenced by get_visibility_variables_cache(), and update_visibility_cache().

◆ zlevels


The documentation for this class was generated from the following files: